Publications

T. Rao, L. Barron-Palos, I. Berkutov, et al., MEOP based 3He polarization and injection system for experiments below 1 K, arXiv e-prints (2024), arXiv:2411.07197.[ bib | DOI | arXiv | https ]

J. B. Liu, J. José, S. Q. Hou, et al., Thermonuclear ²⁸P(p, γ)²⁹S reaction rate and astrophysical implication in ONe nova explosion, A&A687 (2024), A199.[ bib | DOI | https ]

C. Angus, J. Frost-Schenk, A. M. Laird, et al., ²¹Ne energy levels approaching the α -particle threshold, Phys. Rev. C 109 (2024), no. 4, 044323.[ bib | DOI | https ]

W. Fox, R. Longland, C. Marshall, and F. Portillo Chaves, High Resolution Study of Ca 40 to Constrain Potassium Nucleosynthesis in NGC 2419, Phys. Rev. Lett.132 (2024), no. 6, 062701.[ bib | DOI | arXiv | https ]

Graham Medlin, Ekaterina Korobkina, Cole Teander, et al., External moderation of reactor core neutrons for optimized production of ultra-cold neutrons, Journal of Nuclear Engineering 5 (2024), no. 4, 486–499.[ bib | DOI | https ]

A. L. Cooper, S. Hunt, L. Downen, et al., Correlated characterization of ²⁰Ne-implanted targets using nuclear reaction analysis, Rutherford backscattering spectrometry, and ion transport modeling, Nuclear Instruments and Methods in Physics Research A 1056 (2023), 168654.[ bib | DOI | https ]

C. Marshall, K. Setoodehnia, G. C. Cinquegrana, et al., New constraints on sodium production in globular clusters from the ²³Na(³He,d )²⁴Mg reaction, Phys. Rev. C107 (2023), no. 3, 035806.[ bib | DOI | arXiv | https ]

F. Portillo, R. Longland, A. L. Cooper, et al., Spin-parities of subthreshold resonances in the ¹⁸F(p ,α )¹⁵O reaction, Phys. Rev. C107 (2023), no. 3, 035809.[ bib | DOI | arXiv | https ]

A. Psaltis, A. A. Chen, R. Longland, et al., First inverse kinematics measurement of resonances in ⁷Be(α ,γ )¹¹C relevant to neutrino-driven wind nucleosynthesis using DRAGON, Phys. Rev. C106 (2022), no. 4, 045805.[ bib | DOI | arXiv | https ]

A. Psaltis, A. A. Chen, R. Longland, et al., Direct Measurement of Resonances in ⁷Be (α ,γ )¹¹C Relevant to ν p -Process Nucleosynthesis, Phys. Rev. Lett. 129 (2022), no. 16, 162701.[ bib | DOI | arXiv | https ]

J. Frost-Schenk, P. Adsley, A. M. Laird, et al., The impact of ¹⁷O + α reaction rate uncertainties on the s-process in rotating massive stars, MNRAS514 (2022), no. 2, 2650–2657.[ bib | DOI | arXiv | https ]

D. S. Harrouz, N. de Séréville, P. Adsley, et al., Experimental study of the ³⁰Si(³He,d )³¹P reaction and thermonuclear reaction rate of ³⁰Si(p ,γ )³¹P, Phys. Rev. C105 (2022), no. 1, 015805.[ bib | DOI | arXiv | https ]

C. Marshall, K. Setoodehnia, F. Portillo, J. H. Kelley, and R. Longland, New energy for the 133-keV resonance in the ²³Na(p ,γ )²⁴Mg reaction and its impact on nucleosynthesis in globular clusters, Phys. Rev. C104 (2021), no. 3, L032801.[ bib | DOI | https ]

Richard Longland and Nicolas de Séréville, Correlated energy uncertainties in reaction rate calculations, A&A642 (2020), A41.[ bib | DOI | arXiv | https ]

A. Meyer, N. de Séréville, A. M. Laird, et al., Evaluation of the ¹³N(α ,p )¹⁶O thermonuclear reaction rate and its impact on the isotopic composition of supernova grains, Phys. Rev. C 102 (2020), no. 3, 035803.[ bib | DOI | arXiv | https ]

C. Marshall, P. Morfouace, N. de Séréville, and R. Longland, Bayesian analysis of the ⁷⁰Zn(d ,³He) ⁶⁹Cu transfer reaction, Phys. Rev. C102 (2020), no. 2, 024609.[ bib | DOI | arXiv | https ]

W. A. Richter, B. A. Brown, R. Longland, et al., Shell-model studies of the astrophysical r p -process reactions ³⁴S(p ,γ )³⁵Cl and ^{34 g, m}Cl (p ,γ )³⁵Ar, Phys. Rev. C102 (2020), no. 2, 025801.[ bib | DOI | https ]

John Dermigny, Christian Iliadis, Art Champagne, and Richard Longland, Thermonuclear reaction rate of ³⁰Si(p ,γ )³¹P, Phys. Rev. C102 (2020), no. 1, 014609.[ bib | DOI | arXiv | https ]

C. B. Hamill, P. J. Woods, D. Kahl, et al., Study of the 2⁵Mg(d,p)2⁶Mg reaction to constrain the 2⁵Al(p,γ )2⁶Si resonant reaction rates in nova burning conditions, European Physical Journal A 56 (2020), no. 2, 36.[ bib | DOI | arXiv | https ]

K. Setoodehnia, J. H. Kelley, C. Marshall, F. Portillo Chaves, and R. Longland, Experimental study of ³⁵Cl excited states via ³²S(α ,p ), Phys. Rev. C99 (2019), no. 5, 055812.[ bib | DOI | arXiv | https ]

Frank Timmes, Chris Fryer, Frank Timmes, et al., Catching Element Formation In The Act ; The Case for a New MeV Gamma-Ray Mission: Radionuclide Astronomy in the 2020s, BAAS51 (2019), no. 3, 2.[ bib | DOI | arXiv | https ]

L. J. Broussard, S. Baeßler, T. L. Bailey, et al., Using Nab to determine correlations in unpolarized neutron decay, Hyperfine Interactions 240 (2019), no. 1, 1.[ bib | DOI | arXiv | https ]

Nathan Callahan, Chen-Yu Liu, Francisco Gonzalez, et al., Monte Carlo simulations of trapped ultracold neutrons in the UCN τ experiment, Phys. Rev. C100 (2019), no. 1, 015501.[ bib | DOI | arXiv | https ]

S. I. Alvis, I. J. Arnquist, F. T. Avignone, et al., Search for trinucleon decay in the Majorana Demonstrator, Phys. Rev. D99 (2019), no. 7, 072004.[ bib | DOI | arXiv | https ]

S. I. Alvis, I. J. Arnquist, F. T. Avignone, et al., Multisite event discrimination for the majorana demonstrator, Phys. Rev. C99 (2019), no. 6, 065501.[ bib | DOI | arXiv | https ]

X. Sun, E. Adamek, B. Allgeier, et al., Search for dark matter decay of the free neutron from the UCNA experiment: n χ +e⁺e^–, Phys. Rev. C97 (2018), no. 5, 052501.[ bib | DOI | arXiv | https ]

R. W. Pattie, N. B. Callahan, C. Cude-Woods, et al., Measurement of the neutron lifetime using a magneto-gravitational trap and in situ detection, Science 360 (2018), no. 6389, 627–632.[ bib | DOI | arXiv | https ]

S. I. Alvis, I. J. Arnquist, F. T. Avignone, et al., First Limit on the Direct Detection of Lightly Ionizing Particles for Electric Charge as Low as e /1000 with the Majorana Demonstrator, Phys. Rev. Lett.120 (2018), no. 21, 211804.[ bib | DOI | arXiv | https ]

T. M. Ito, E. R. Adamek, N. B. Callahan, et al., Performance of the upgraded ultracold neutron source at Los Alamos National Laboratory and its implication for a possible neutron electric dipole moment experiment, Phys. Rev. C97 (2018), no. 1, 012501.[ bib | DOI | arXiv | https ]

B. Heacock, M. Arif, D. G. Cory, et al., Increased interference fringe visibility from the post-fabrication heat treatment of a perfect crystal silicon neutron interferometer, Review of Scientific Instruments 89 (2018), no. 2, 023502.[ bib | DOI | arXiv | https ]

Z. Tang, M. Blatnik, L. J. Broussard, et al., Search for the Neutron Decay n X +γ , Where X is a Dark Matter Particle, Phys. Rev. Lett.121 (2018), no. 2, 022505.[ bib | DOI | arXiv | https ]

R. Longland, J. Dermigny, and C. Marshall, Reaction rates for the ³⁹K(p ,γ )⁴⁰Ca reaction, Phys. Rev. C98 (2018), no. 2, 025802.[ bib | DOI | arXiv | https ]

K. Setoodehnia, C. Marshall, J. H. Kelley, et al., Excited states of ³⁹Ca and their significance in nova nucleosynthesis, Phys. Rev. C 98 (2018), no. 5, 055804.[ bib | DOI | arXiv | https ]

M. M. Musgrave, S. Baeßler, S. Balascuta, et al., Measurement of the absolute neutron beam polarization from a supermirror polarizer and the absolute efficiency of a neutron spin rotator for the NPDGamma experiment using a polarized ³He neutron spin-filter, Nuclear Instruments and Methods in Physics Research A 895 (2018), 19–28.[ bib | DOI | arXiv | https ]

A. Anghel, T. L. Bailey, G. Bison, et al., Solid deuterium surface degradation at ultracold neutron sources, European Physical Journal A 54 (2018), no. 9, 148.[ bib | DOI | arXiv | https ]

N. Abgrall, I. J. Arnquist, III Avignone, F. T., et al., The processing of enriched germanium for the MAJORANA DEMONSTRATOR and R&D for a next generation double-beta decay experiment, Nuclear Instruments and Methods in Physics Research A 877 (2018), 314–322.[ bib | DOI | arXiv | https ]

C. E. Aalseth, N. Abgrall, E. Aguayo, et al., Search for Neutrinoless Double-β Decay in <mml:mmultiscripts>Ge 76 </mml:mmultiscripts> with the Majorana Demonstrator, Phys. Rev. Lett.120 (2018), no. 13, 132502.[ bib | DOI | arXiv | https ]

Ali Ashtari Esfahani, David M. Asner, Sebastian Böser, et al., Determining the neutrino mass with cyclotron radiation emission spectroscopyProject 8, Journal of Physics G Nuclear Physics 44 (2017), no. 5, 054004.[ bib | DOI | arXiv | https ]

C. L. Morris, E. R. Adamek, L. J. Broussard, et al., A new method for measuring the neutron lifetime using an in situ neutron detector, Review of Scientific Instruments 88 (2017), no. 5, 053508.[ bib | DOI | arXiv | https ]

A. Steyerl, K. K. H. Leung, C. Kaufman, G. Müller, and S. S. Malik, Spin flip loss in magnetic confinement of ultracold neutrons for neutron lifetime experiments, Phys. Rev. C 95 (2017), 035502.[ bib | DOI | http ]

E. D. Davis and A. R. Young, Neutron-antineutron oscillations beyond the quasifree limit, Phys. Rev. D95 (2017), no. 3, 036004.[ bib | DOI | arXiv | http ]

D. D. Stancil, S. Balci Yegen, D. A. Dickey, and C. R. Gould, Search for possible solar influences in Ra-226 decays, Results in Physics 7 (2017), 385–406.[ bib | DOI | arXiv | http ]

L. J. Broussard, B. A. Zeck, E. R. Adamek, et al., Detection system for neutron β decay correlations in the UCNB and Nab experiments, Nuclear Instruments and Methods in Physics Research A 849 (2017), 83–93.[ bib | DOI | arXiv | https ]

Richard Longland, Correlated uncertainties in Monte Carlo reaction rate calculations, A&A604 (2017), A34.[ bib | DOI | arXiv | https ]

S. Vasilyev, N. Abgrall, I. J. Arnquist, et al., Status of the MAJORANA DEMONSTRATOR, Physics of Particles and Nuclei 48 (2017), no. 1, 27–33.[ bib | DOI | https ]

N. Abgrall, I. J. Arnquist, F. T. Avignone, et al., New Limits on Bosonic Dark Matter, Solar Axions, Pauli Exclusion Principle Violation, and Electron Decay from the Majorana Demonstrator, Phys. Rev. Lett.118 (2017), no. 16, 161801.[ bib | DOI | arXiv | https ]

N. Abgrall, E. Aguayo, F. T. Avignone, et al., Muon flux measurements at the davis campus of the sanford underground research facility with the MAJORANA DEMONSTRATOR veto system, Astroparticle Physics 93 (2017), 70–75.[ bib | DOI | arXiv | https ]

D. Akimov, J. B. Albert, P. An, et al., Observation of coherent elastic neutrino-nucleus scattering, Science 357 (2017), no. 6356, 1123–1126.[ bib | DOI | https ]

N. Abgrall, I. J. Arnquist, III Avignone, F. T., et al., The MAJORANA DEMONSTRATOR calibration system, Nuclear Instruments and Methods in Physics Research A 872 (2017), 16–22.[ bib | DOI | arXiv | https ]

P. Saggu, T. Mineeva, M. Arif, et al., Decoupling of a neutron interferometer from temperature gradients, Review of Scientific Instruments 87 (2016), no. 12, 123507.[ bib | DOI | arXiv | http ]

N. Abgrall, I. J. Arnquist, F. T. Avignone, III, et al., New limits on bosonic dark matter, solar axions, Pauli Exclusion Principle violation, and electron decay from the low-energy spectrum of the MAJORANA DEMONSTRATOR, ArXiv e-prints (2016).[ bib | arXiv | http ]

N. Benouaret, J. Beller, H. Pai, et al., Dipole response of the odd-proton nucleus ²⁰⁵Tl up to the neutron-separation energy, Journal of Physics G Nuclear Physics 43 (2016), no. 11, 115101.[ bib | DOI | http ]

J. Ashenfelter, A. B. Balantekin, H. R. Band, et al., The PROSPECT physics program, Journal of Physics G Nuclear Physics 43 (2016), no. 11, 113001.[ bib | DOI | arXiv | http ]

K. K. H. Leung, P. Geltenbort, S. Ivanov, F. Rosenau, and O. Zimmer, Neutron lifetime measurements and effective spectral cleaning with an ultracold neutron trap using a vertical Halbach octupole permanent magnet array, Phys. Rev. C94 (2016), no. 4, 045502.[ bib | DOI | arXiv | http ]

W. Wei, L. J. Broussard, M. A. Hoffbauer, et al., Position-sensitive detection of ultracold neutrons with an imaging camera and its implications to spectroscopy, Nuclear Instruments and Methods in Physics Research A 830 (2016), 36–43.[ bib | DOI | arXiv | http ]

Z. Tang, E. R. Adamek, A. Brandt, et al., Measurement of spin-flip probabilities for ultracold neutrons interacting with nickel phosphorus coated surfaces, Nuclear Instruments and Methods in Physics Research A 827 (2016), 32–38.[ bib | DOI | arXiv | http ]

N. Abgrall, I. J. Arnquist, F. T. Avignone, et al., The MAJORANA DEMONSTRATOR radioassay program, Nuclear Instruments and Methods in Physics Research A 828 (2016), 22–36.[ bib | DOI | arXiv | http ]

N. Abgrall, I. J. Arnquist, F. T. Avignone, et al., High voltage testing for the MAJORANA DEMONSTRATOR, Nuclear Instruments and Methods in Physics Research A 823 (2016), 83–90.[ bib | DOI | arXiv | http ]

C. M. Swank, A. K. Petukhov, and R. Golub, Random walks with thermalizing collisions in bounded regions: Physical applications valid from the ballistic to diffusive regimes, Phys. Rev. A93 (2016), no. 6, 062703.[ bib | DOI | arXiv | http ]

H. P. Mumm, M. G. Huber, W. Bauder, et al., High-sensitivity measurement of ³He-⁴He isotopic ratios for ultracold neutron experiments, Phys. Rev. C93 (2016), no. 6, 065502.[ bib | DOI | arXiv | http ]

B. Löher, D. Savran, T. Aumann, et al., The decay pattern of the Pygmy Dipole Resonance of ¹⁴⁰Ce, Physics Letters B 756 (2016), 72–76.[ bib | DOI | http ]

K. J. Coakley, M. S. Dewey, M. G. Huber, et al., Survival analysis approach to account for non-exponential decay rate effects in lifetime experiments, Nuclear Instruments and Methods in Physics Research A 813 (2016), 84–95.[ bib | DOI | http ]

K. Li, M. Arif, D. G. Cory, et al., Neutron limit on the strongly-coupled chameleon field, Phys. Rev. D93 (2016), no. 6, 062001.[ bib | DOI | arXiv | http ]

S. Hunt, C. Iliadis, and R. Longland, Characterization of a ¹⁰B-doped liquid scintillator as a capture-gated neutron spectrometer, Nuclear Instruments and Methods in Physics Research A 811 (2016), 108–114.[ bib | DOI | http ]

W. M. Snow, M. W. Ahmed, J. D. Bowman, et al., Status of Theory and Experiment in Hadronic Parity Violation, International Journal of Modern Physics Conference Series 40 (2016), 1660002.[ bib | DOI | http ]

D. G. Phillips, W. M. Snow, K. Babu, et al., Neutron-antineutron oscillations: Theoretical status and experimental prospects, Phys. Rep. 612 (2016), 1–45.[ bib | DOI | arXiv | http ]

K. K. H. Leung, S. Ivanov, F. M. Piegsa, M. Simson, and O. Zimmer, Ultracold-neutron production and up-scattering in superfluid helium between 1.1 K and 2.4 K, Phys. Rev. C93 (2016), no. 2, 025501.[ bib | DOI | arXiv | http ]

C. T. Nsangu, A. M. Laird, A. Parikh, et al., The ²⁰Ne(d,p)²¹Ne transfer reaction in relation to the s-process abundances, Journal of Physics Conference Series 665 (2016), no. 1, 012026.[ bib | DOI | http ]

J. L. Tain, D. Jordán, J. Agramunt, et al., Measurement of very low (α,n) cross sections of astrophysical interest, Journal of Physics Conference Series 665 (2016), no. 1, 012031.[ bib | DOI | http ]

R. Golub, C. Kaufman, G. Müller, and A. Steyerl, Geometric phases in electric dipole searches with trapped spin-1/2 particles in general fields and measurement cells of arbitrary shape with smooth or rough walls, Phys. Rev. A92 (2015), no. 6, 062123.[ bib | DOI | arXiv | http ]

S. J. Seestrom, E. R. Adamek, D. Barlow, et al., Upscattering of ultracold neutrons from gases, Phys. Rev. C92 (2015), no. 6, 065501.[ bib | DOI | http ]

R. W. Pattie, K. P. Hickerson, and A. R. Young, Erratum: Limits on tensor coupling from neutron β decay [Phys. Rev. C 88, 048501 (2013)], Phys. Rev. C92 (2015), no. 6, 069902.[ bib | DOI | http ]

A. Coc, P. Petitjean, J.-P. Uzan, et al., New reaction rates for improved primordial D /H calculation and the cosmic evolution of deuterium, Phys. Rev. D92 (2015), no. 12, 123526.[ bib | DOI | arXiv | http ]

G. Pignol, M. Guigue, A. Petukhov, and R. Golub, Frequency shifts and relaxation rates for spin-1/2 particles moving in electromagnetic fields, Phys. Rev. A92 (2015), no. 5, 053407.[ bib | DOI | arXiv | http ]

Z. Wang, M. A. Hoffbauer, C. L. Morris, et al., A multilayer surface detector for ultracold neutrons, Nuclear Instruments and Methods in Physics Research A 798 (2015), 30–35.[ bib | DOI | arXiv | http ]

K. J. Kelly, A. E. Champagne, R. Longland, and M. Q. Buckner, New recommended ω γ for the E_r^{c .m .}=458 keV resonance in ²²Ne(p ,γ )²³Na, Phys. Rev. C92 (2015), no. 3, 035805.[ bib | DOI | http ]

P. Schmidt-Wellenburg, J. Bossy, E. Farhi, et al., Experimental study of ultracold neutron production in pressurized superfluid helium, Phys. Rev. C92 (2015), no. 2, 024004.[ bib | DOI | arXiv | http ]

N. Fomin, G. L. Greene, R. R. Allen, et al., Corrigendum to ”Fundamental neutron physics beamline at the spallation neutron source at ORNL” [Nucl. Instrum. Methods Phys. Res. A 773 (2015) 45-51], Nuclear Instruments and Methods in Physics Research A 788 (2015), 203–203.[ bib | DOI | http ]

O. Zimmer and R. Golub, Ultracold neutron accumulation in a superfluid-helium converter with magnetic multipole reflector, Phys. Rev. C 92 (2015), no. 1, 015501.[ bib | DOI | http ]

W. Xu, N. Abgrall, F. T. Avignone, III, et al., The Majorana Demonstrator: A Search for Neutrinoless Double-beta Decay of ⁷⁶Ge, Journal of Physics Conference Series 606 (2015), no. 1, 012004.[ bib | DOI | http ]

S. Mertens, N. Abgrall, F. T. Avignone, III, et al., MAJORANA Collaboration’s Experience with Germanium Detectors, Journal of Physics Conference Series 606 (2015), no. 1, 012005.[ bib | DOI | arXiv | http ]

I. Guinn, N. Abgrall, F. T. Avignone, III, et al., Low Background Signal Readout Electronics for the Majorana Demonstrator, Journal of Physics Conference Series 606 (2015), no. 1, 012009.[ bib | DOI | arXiv | http ]

Y. Efremenko, N. Abgrall, I. J. Arnquist, et al., Status of the MAJORANA DEMONSTRATOR: A search for neutrinoless double-beta decay, International Journal of Modern Physics A 30 (2015), 1530032.[ bib | DOI | http ]

N. Abgrall, E. Aguayo, F. T. Avignone, et al., The MAJORANA Parts Tracking Database, Nuclear Instruments and Methods in Physics Research A 779 (2015), 52–62.[ bib | DOI | http ]

N. Fomin, G. L. Greene, R. R. Allen, et al., Fundamental neutron physics beamline at the spallation neutron source at ORNL, Nuclear Instruments and Methods in Physics Research A 773 (2015), 45–51.[ bib | DOI | arXiv | http ]

S. K. L. Sjue, L. J. Broussard, M. Makela, et al., Radial distribution of charged particles in a magnetic field, Review of Scientific Instruments 86 (2015), no. 2, 023102.[ bib | DOI | arXiv | http ]

W. M. Snow, M. Arif, B. Heacock, et al., A sensitive search for dark energy through chameleon scalar fields using neutron interferometry, Journal of Physics Conference Series 578 (2015), no. 1, 012009.[ bib | DOI | http ]

G. K. Giovanetti, N. Abgrall, E. Aguayo, et al., A Dark Matter Search with MALBEK, Physics Procedia 61 (2015), 77–84.[ bib | DOI | arXiv | http ]

M. P. Green, N. Abgrall, E. Aguayo, et al., The MAJORANA DEMONSTRATOR for 0νββ: Current Status and Future Plans, Physics Procedia 61 (2015), 232–240.[ bib | DOI | http ]

N. Abgrall, E. Aguayo, F. T. Avignone, et al., The Majorana Low-noise Low-background Front-end Electronics, Physics Procedia 61 (2015), 654–657.[ bib | DOI | http ]

W. Xu, N. Abgrall, E. Aguayo, et al., Testing the Ge Detectors for the MAJORANA DEMONSTRATOR, Physics Procedia 61 (2015), 807–815.[ bib | DOI | arXiv | http ]

C. Cuesta, N. Abgrall, E. Aguayo, et al., Background Model for the Majorana Demonstrator, Physics Procedia 61 (2015), 821–827.[ bib | DOI | arXiv | http ]

M. Q. Buckner, C. Iliadis, K. J. Kelly, et al., High-intensity-beam study of ¹⁷O(p ,γ )¹⁸F and thermonuclear reaction rates for ¹⁷O+p, Phys. Rev. C91 (2015), no. 1, 015812.[ bib | DOI | http ]

E. Korobkina, G. Medlin, B. Wehring, et al., Ultracold neutron source at the PULSTAR reactor: Engineering design and cryogenic testing, Nuclear Instruments and Methods in Physics Research A 767 (2014), 169–175.[ bib | DOI | http ]

P. Mohr, R. Longland, and C. Iliadis, Thermonuclear reaction rate of ¹⁸Ne(α ,p ) ²¹Na from Monte Carlo calculations, Phys. Rev. C 90 (2014), no. 6, 065806.[ bib | DOI | arXiv | http ]

P. R. Huffman, K. J. Coakley, J. M. Doyle, et al., Design and performance of a cryogenic apparatus for magnetically trapping ultracold neutrons, Cryogenics 64 (2014), 40–50.[ bib | DOI | http ]

A. R. Young, S. Clayton, B. W. Filippone, et al., Beta decay measurements with ultracold neutrons: a review of recent measurements and the research program at Los Alamos National Laboratory, Journal of Physics G Nuclear Physics 41 (2014), no. 11, 114007.[ bib | DOI | http ]

M. Guigue, G. Pignol, R. Golub, and A. K. Petukhov, Universality of spin relaxation for spin-1/2 particles diffusing over magnetic-field inhomogeneities in the adiabatic regime, Phys. Rev. A90 (2014), no. 1, 013407.[ bib | DOI | arXiv | http ]

F. M. Piegsa, M. Fertl, S. N. Ivanov, et al., New source for ultracold neutrons at the Institut Laue-Langevin, Phys. Rev. C90 (2014), no. 1, 015501.[ bib | DOI | arXiv | http ]

A. Steyerl, C. Kaufman, G. Müller, et al., Calculation of geometric phases in electric dipole searches with trapped spin-1/2 particles based on direct solution of the Schrödinger equation, Phys. Rev. A89 (2014), no. 5, 052129.[ bib | DOI | arXiv | http ]

D. J. Salvat, E. R. Adamek, D. Barlow, et al., Storage of ultracold neutrons in the magneto-gravitational trap of the UCNτ experiment, Phys. Rev. C89 (2014), no. 5, 052501.[ bib | DOI | http ]

L. J. Broussard, H. O. Back, M. S. Boswell, et al., Measurement of the Half-Life of the T =1/2 Mirror Decay of Ne19 and its Implication on Physics Beyond the Standard Model, Physical Review Letters 112 (2014), no. 21, 212301.[ bib | DOI | arXiv | http ]

E. D. Davis, C. R. Gould, and E. I. Sharapov, Oklo reactors and implications for nuclear science, International Journal of Modern Physics E 23 (2014), 1430007–236.[ bib | DOI | arXiv | http ]

C. R. Gould, E. I. Sharapov, and A. A. Sonzogni, Nuclear Data and the Oklo Natural Nuclear Reactors, Nuclear Data Sheets 118 (2014), 585–587.[ bib | DOI | http ]

R. Longland, D. Martin, and J. José, Performance improvements for nuclear reaction network integration, A&A563 (2014), A67.[ bib | DOI | arXiv | http ]

P. Finnerty, E. Aguayo, M. Amman, et al., The Majorana Demonstrator: Progress towards showing the feasibility of a tonne-scale ⁷⁶Ge neutrinoless double-beta decay experiment, Journal of Physics Conference Series 485 (2014), no. 1, 012042.[ bib | DOI | http ]

C. Gould and D. Haase, Lewis Worth Seagondollar, Physics Today 67 (2014), no. 3, 64–66.[ bib | DOI | http ]

L. E. Leviner, C. E. Aalseth, M. W. Ahmed, et al., A segmented, enriched N-type germanium detector for neutrinoless double beta-decay experiments, Nuclear Instruments and Methods in Physics Research A 735 (2014), 66–77.[ bib | DOI | arXiv | http ]

A. Salas-Bacci, P. L. McGaughey, S. Baeßler, et al., Characterization of large area, thick, and segmented silicon detectors for neutron β-decay experiments, Nuclear Instruments and Methods in Physics Research A 735 (2014), 408–415.[ bib | DOI | http ]

A. R. Young, T. Huegle, M. Makela, et al., Spallation-driven Ultracold Neutron Sources: Concepts for a Next Generation Source, Physics Procedia 51 (2014), 93–97.[ bib | DOI | http ]

E. I. Sharapov, C. L. Morris, M. Makela, et al., Upscattering of ultracold neutrons from the polymer [C₆H₁₂]_n, Phys. Rev. C 88 (2013), no. 6, 064605.[ bib | DOI | arXiv | http ]

J. M. Cesaratto, A. E. Champagne, M. Q. Buckner, et al., Measurement of the E_r^c.m.=138 keV resonance in the ²³Na(p,γ)²⁴Mg reaction and the abundance of sodium in AGB stars, Phys. Rev. C88 (2013), no. 6, 065806.[ bib | DOI | http ]

D. Irvine, A. A. Chen, A. Parikh, et al., Evidence for the existence of the astrophysically important 6.40-MeV state of ³¹S, Phys. Rev. C 88 (2013), no. 5, 055803.[ bib | DOI | http ]

D. P. Kendellen and D. G. Haase, Measurement and modeling of thermal flow in an enclosed tube containing superfluid helium film, Cryogenics 57 (2013), 134–139.[ bib | DOI | http ]

R. W. Pattie, Jr., K. P. Hickerson, and A. R. Young, Limits on tensor coupling from neutron β decay, Phys. Rev. C88 (2013), no. 4, 048501.[ bib | DOI | arXiv | http ]

P. R. Huffman and D. N. McKinsey, Detecting scintillations in liquid helium, Journal of Instrumentation 8 (2013), C09008.[ bib | DOI | http ]

E. I. Sharapov, C. L. Morris, M. Makela, et al., Measurements of ultracold neutron upscattering and absorption in polyethylene and vanadium, Phys. Rev. C88 (2013), no. 3, 037601.[ bib | DOI | arXiv | http ]

I. Pogrebnyak, C. Howard, C. Iliadis, R. Longland, and G. E. Mitchell, Mean proton and α-particle reduced widths of the Porter-Thomas distribution and astrophysical applications, Phys. Rev. C88 (2013), no. 1, 015808.[ bib | DOI | http ]

K. Setoodehnia, A. A. Chen, D. Kahl, et al., Nuclear structure of ³⁰S and its implications for nucleosynthesis in classical novae, Phys. Rev. C 87 (2013), no. 6, 065801.[ bib | DOI | arXiv | http ]

E. Aguayo, M. Busch, R. Daniels, et al., The design of an ultra-low background thermosyphon for the Majorana Demonstrator, Nuclear Instruments and Methods in Physics Research A 709 (2013), 17–21.[ bib | DOI | http ]

M. P. Mendenhall, R. W. Pattie, Jr., Y. Bagdasarova, et al., Precision measurement of the neutron β-decay asymmetry, Phys. Rev. C 87 (2013), no. 3, 032501.[ bib | DOI | arXiv | http ]

E. Aguayo, M. Amman, F. T. Avignone, et al., Characteristics of signals originating near the lithium-diffused N+ contact of high purity germanium p-type point contact detectors, Nuclear Instruments and Methods in Physics Research A 701 (2013), 176–185.[ bib | DOI | http ]

A. M. Laird, A. Parikh, A. S. J. Murphy, et al., Is γ-Ray Emission from Novae Affected by Interference Effects in the F18(p,α)O15 Reaction?, Physical Review Letters 110 (2013), no. 3, 032502.[ bib | DOI | arXiv | http ]

A. Saunders, M. Makela, Y. Bagdasarova, et al., Performance of the Los Alamos National Laboratory spallation-driven solid-deuterium ultra-cold neutron source, Review of Scientific Instruments 84 (2013), no. 1, 013304–013304.[ bib | DOI | http ]

R. Longland, Recommendations for Monte Carlo nucleosynthesis sampling, A&A548 (2012), A30.[ bib | DOI | arXiv | http ]

D. J. Salvat, C. L. Morris, Z. Wang, et al., A boron-coated ionization chamber for ultra-cold neutron detection, Nuclear Instruments and Methods in Physics Research A 691 (2012), 109–112.[ bib | DOI | http ]

C. R. Gould, E. I. Sharapov, and A. A. Sonzogni, γ-ray fluxes in Oklo natural reactors, Phys. Rev. C86 (2012), no. 5, 054602.[ bib | DOI | arXiv | http ]

B. Plaster, R. Rios, H. O. Back, et al., Measurement of the neutron β-asymmetry parameter A₀ with ultracold neutrons, Phys. Rev. C 86 (2012), no. 5, 055501.[ bib | DOI | arXiv | http ]

C. W. Robertson, A. R. Young, K. Ronald, A. W. Cross, and C. G. Whyte, Design of a Triodelike Electron Gun for Millimeter-Wave Gyrodevices, IEEE Transactions on Electron Devices 59 (2012), 2520–2523.[ bib | DOI | http ]

D. G. Phillips, II, E. Aguayo, F. T. Avignone, III, et al., The MAJORANA experiment: an ultra-low background search for neutrinoless double-beta decay, Journal of Physics Conference Series 381 (2012), no. 1, 012044.[ bib | DOI | arXiv | http ]

C. R. Gould and E. I. Sharapov, La-138/139 isotopic data and neutron fluences for Oklo RZ10 reactor, Phys. Rev. C86 (2012), no. 2, 027601.[ bib | DOI | arXiv | http ]

G. K. Giovanetti, E. Aguayo, F. T. Avignone, Iii, et al., Dark matter sensitivities of the Majorana Demonstrator, Journal of Physics Conference Series 375 (2012), no. 1, 012014.[ bib | DOI | http ]

J. F. Wilkerson, E. Aguayo, F. T. Avignone, Iii, et al., The Majorana Demonstrator: A Search for Neutrinoless Double-beta Decay of Germanium-76, Journal of Physics Conference Series 375 (2012), no. 4, 042010.[ bib | DOI | http ]

C. M. Swank, A. K. Petukhov, and R. Golub, Correlation functions for restricted Brownian motion from the ballistic through to the diffusive regimes, Physics Letters A 376 (2012), 2319–2324.[ bib | DOI | http ]

R. Longland, C. Iliadis, and A. I. Karakas, Publisher’s Note: Reaction rates for the s-process neutron source ²²Ne + α [Phys. Rev. C 85, 065809 (2012)], Phys. Rev. C86 (2012), no. 1, 019903.[ bib | DOI | http ]

A. T. Holley, L. J. Broussard, J. L. Davis, et al., A high-field adiabatic fast passage ultracold neutron spin flipper for the UCNA experiment, Review of Scientific Instruments 83 (2012), no. 7, 073505–073505.[ bib | DOI | http ]

R. Longland, P. Lorén-Aguilar, J. José, E. García-Berro, and L. G. Althaus, Lithium production in the merging of white dwarf stars, A&A542 (2012), A117.[ bib | DOI | arXiv | http ]

G. Sala, F. Haberl, J. José, et al., Constraints on the Mass and Radius of the Accreting Neutron Star in the Rapid Burster, ApJ 752 (2012), 158.[ bib | DOI | arXiv | http ]

R. Longland, C. Iliadis, and A. I. Karakas, Reaction rates for the s-process neutron source ²²Ne + α, Phys. Rev. C85 (2012), no. 6, 065809.[ bib | DOI | arXiv | http ]

C. G. Whyte, K. Ronald, A. R. Young, et al., Wideband Gyro-Amplifiers, IEEE Transactions on Plasma Science 40 (2012), 1303–1310.[ bib | DOI | http ]

B. Saam, A. K. Petukhov, J. Chastagnier, et al., Comment on “Pressure dependence of wall relaxation in polarized ³He gaseous cells”, Phys. Rev. A85 (2012), no. 4, 047401.[ bib | DOI | http ]

R. Longland and C. Iliadis, Current Status of the ²²Ne+α s-Process Neutron Source, Journal of Physics Conference Series 337 (2012), no. 1, 012047.[ bib | DOI | http ]

C. R. Gould and E. I. Sharapov, ¹⁷⁶Lu/¹⁷⁵Lu thermometry for the Oklo natural reactors: A new examination of old data, Phys. Rev. C 85 (2012), no. 2, 024610.[ bib | DOI | arXiv | http ]

A. Dobi, C. Hall, S. Herrin, et al., A xenon gas purity monitor for EXO, Nuclear Instruments and Methods in Physics Research A 659 (2011), 215–228.[ bib | DOI | arXiv | http ]

N. Ackerman, B. Aharmim, M. Auger, et al., Observation of Two-Neutrino Double-Beta Decay in Xe136 with the EXO-200 Detector, Physical Review Letters 107 (2011), no. 21, 212501.[ bib | DOI | arXiv | http ]

C. E. Aalseth, M. Amman, F. T. Avignone, et al., Astroparticle physics with a customized low-background broad energy Germanium detector, Nuclear Instruments and Methods in Physics Research A 652 (2011), 692–695.[ bib | DOI | http ]

A. K. Petukhov, G. Pignol, and R. Golub, Publisher’s Note: Comment on “Limits on possible new nucleon monopole-dipole interactions from the spin relaxation rate of polarized He3 gas” [Phys. Rev. DPRVDAQ1550-7998 84, 058501 (2011)], Phys. Rev. D84 (2011), no. 7, 079901.[ bib | DOI | http ]

A. K. Petukhov, G. Pignol, and R. Golub, Comment on “Limits on possible new nucleon monopole-dipole interactions from the spin relaxation rate of polarized He3 gas”, Phys. Rev. D84 (2011), no. 5, 058501.[ bib | DOI | arXiv | http ]

R. Longland, P. Lorén-Aguilar, J. José, et al., Nucleosynthesis during the Merger of White Dwarfs and the Origin of R Coronae Borealis Stars, ApJ737 (2011), L34.[ bib | DOI | arXiv | http ]

D. Sinclair, E. Rollin, J. Smith, et al., Prospects for Barium Tagging in Gaseous Xenon, Journal of Physics Conference Series 309 (2011), no. 1, 012005.[ bib | DOI | http ]

C. E. Aalseth, E. Aguayo, M. Amman, et al., The MAJORANA Experiment, Nuclear Physics B Proceedings Supplements 217 (2011), 44–46.[ bib | DOI | arXiv | http ]

F. Atchison, B. Blau, K. Bodek, et al., Production of ultracold neutrons from cryogenic ²H₂, O₂, and C²H₄ converters, EPL (Europhysics Letters) 95 (2011), 12001.[ bib | DOI | http ]

R. Rios, E. Tatar, J. D. Bacon, et al., Sealed drift tube cosmic ray veto counters, Nuclear Instruments and Methods in Physics Research A 637 (2011), 105–108.[ bib | DOI | http ]

C. Wrede, B. W. Filippone, A. García, et al., Preparation of ^{114 m}In low energy conversion electron sources, Nuclear Instruments and Methods in Physics Research B 269 (2011), 1113–1116.[ bib | DOI | http ]

P. Courtois, C. Menthonnex, R. Hehn, et al., Production and characterization of intercalated graphite crystals for cold neutron monochromators, Nuclear Instruments and Methods in Physics Research A 634 (2011), S37–S40.[ bib | DOI | http ]

A. Parikh, K. Wimmer, T. Faestermann, et al., Improving the P30(p,γ)S31 rate in oxygen-neon novae: Constraints on J^π values for proton-threshold states in S31, Phys. Rev. C83 (2011), no. 4, 045806.[ bib | DOI | http ]

R. Golub, R. M. Rohm, and C. M. Swank, Reexamination of relaxation of spins due to a magnetic field gradient: Identity of the Redfield and Torrey theories, Phys. Rev. A83 (2011), no. 2, 023402.[ bib | DOI | arXiv | http ]

V. L. Bratman, G. G. Denisov, N. G. Kolganov, et al., Generation of 3 GW microwave pulses in X-band from a combination of a relativistic backward-wave oscillator and a helical-waveguide compressor, Physics of Plasmas 17 (2010), no. 11, 110703.[ bib | DOI | http ]

J. Liu, M. P. Mendenhall, A. T. Holley, et al., Publisher’s Note: Determination of the Axial-Vector Weak Coupling Constant with Ultracold Neutrons [Phys. Rev. Lett. 105, 181803 (2010)], Physical Review Letters 105 (2010), no. 21, 219903.[ bib | DOI | http ]

R. Longland, C. Iliadis, A. E. Champagne, et al., Charged-particle thermonuclear reaction rates: I. Monte Carlo method and statistical distributions, Nuclear Physics A 841 (2010), 1–30.[ bib | DOI | arXiv | http ]

C. Iliadis, R. Longland, A. E. Champagne, A. Coc, and R. Fitzgerald, Charged-particle thermonuclear reaction rates: II. Tables and graphs of reaction rates and probability density functions, Nuclear Physics A 841 (2010), 31–250.[ bib | DOI | arXiv | http ]

C. Iliadis, R. Longland, A. E. Champagne, and A. Coc, Charged-particle thermonuclear reaction rates: III. Nuclear physics input, Nuclear Physics A 841 (2010), 251–322.[ bib | DOI | arXiv | http ]

C. Iliadis, R. Longland, A. E. Champagne, and A. Coc, Charged-particle thermonuclear reaction rates: IV. Comparison to previous work, Nuclear Physics A 841 (2010), 323–388.[ bib | DOI | arXiv | http ]

J. Liu, M. P. Mendenhall, A. T. Holley, et al., Determination of the Axial-Vector Weak Coupling Constant with Ultracold Neutrons, Physical Review Letters 105 (2010), no. 18, 181803.[ bib | DOI | arXiv | http ]

M. McStravick, S. V. Samsonov, K. Ronald, et al., Experimental results on microwave pulse compression using helically corrugated waveguide, Journal of Applied Physics 108 (2010), no. 5, 054908–054908.[ bib | DOI | http ]

R. J. Deboer, M. Wiescher, J. Görres, et al., Photoexcitation of astrophysically important states in Mg26. II. Ground-state-transition partial widths, Phys. Rev. C82 (2010), no. 2, 025802.[ bib | DOI | http ]

C. M. Lavelle, C.-Y. Liu, W. Fox, et al., Ultracold-neutron production in a pulsed-neutron beam line, Phys. Rev. C82 (2010), no. 1, 015502.[ bib | DOI | arXiv | http ]

R. Longland, C. Iliadis, J. M. Cesaratto, et al., Resonance strength in Ne22(p,γ)Na23 from depth profiling in aluminum, Phys. Rev. C 81 (2010), no. 5, 055804.[ bib | DOI | http ]

C. R. Donaldson, W. He, A. W. Cross, et al., A cusp electron gun for millimeter wave gyrodevices, Applied Physics Letters 96 (2010), no. 14, 141501.[ bib | DOI | http ]

J. R. Newton, C. Iliadis, A. E. Champagne, et al., Measurement of O17(p,γ)F18 between the narrow resonances at E_r^lab=193 and 519 keV, Phys. Rev. C81 (2010), no. 4, 045801.[ bib | DOI | http ]

P. R. Hanson, A. F. Arbogast, W. C. Johnson, R. M. Joeckel, and A. R. Young, Megadroughts and late Holocene dune activation at the eastern margin of the Great Plains, north-central Kansas, USA, Aeolian Research 1 (2010), 101–110.[ bib | DOI | http ]

C. E. Aalseth, M. Amman, J. F. Amsbaugh, et al., The MAJORANA Project, Journal of Physics Conference Series 203 (2010), no. 1, 012057.[ bib | DOI | arXiv | http ]

R. L. Longland, Investigation of the s-process neutron source neon-22+alpha, Ph.D. thesis, The University of North Carolina at Chapel Hill, 2010.[ bib | http ]

C. M. O’Shaughnessy, R. Golub, K. W. Schelhammer, et al., Measuring the neutron lifetime using magnetically trapped neutrons, Nuclear Instruments and Methods in Physics Research A 611 (2009), 171–175.[ bib | DOI | arXiv | http ]

K. K. H. Leung and O. Zimmer, Proposed neutron lifetime measurement using a hybrid magnetic trap for ultra-cold neutrons, Nuclear Instruments and Methods in Physics Research A 611 (2009), 181–185.[ bib | DOI | http ]

M. Simson, F. Ayala Guardia, S. Baeßler, et al., Measuring the proton spectrum in neutron decay-Latest results with aSPECT, Nuclear Instruments and Methods in Physics Research A 611 (2009), 203–206.[ bib | DOI | arXiv | http ]

D. Počanić, R. Alarcon, L. P. Alonzi, et al., Nab: Measurement principles, apparatus and uncertainties, Nuclear Instruments and Methods in Physics Research A 611 (2009), 211–215.[ bib | DOI | arXiv | http ]

F. Atchison, B. Blau, K. Bodek, et al., Investigation of solid D₂, O₂ and CD₄ for ultracold neutron production, Nuclear Instruments and Methods in Physics Research A 611 (2009), 252–255.[ bib | DOI | http ]

A. R. Young, A biased and personal overview, Nuclear Instruments and Methods in Physics Research A 611 (2009), 331–333.[ bib | DOI | http ]

R. Longland, C. Iliadis, G. Rusev, et al., Photoexcitation of astrophysically important states in Mg26, Phys. Rev. C80 (2009), no. 5, 055803.[ bib | DOI | http ]

S. K. Lamoreaux and R. Golub, Experimental searches for the neutron electric dipole moment, Journal of Physics G Nuclear Physics 36 (2009), no. 10, 104002.[ bib | DOI | http ]

R. Neilson, F. LePort, A. Pocar, et al., Characterization of large area APDs for the EXO-200 detector, Nuclear Instruments and Methods in Physics Research A 608 (2009), 68–75.[ bib | DOI | arXiv | http ]

G. Konrad, F. Ayala Guardia, S. Baeßler, et al., The Proton Spectrum in Neutron Beta Decay: Latest Results with the aSPECT Spectrometer, Nuclear Physics A 827 (2009), 529–531c.[ bib | DOI | http ]

Q. Ye, H. Gao, W. Zheng, et al., Relaxation of spin-polarized H3e in mixtures of H3e and H4e at about 330 mK, Phys. Rev. A80 (2009), no. 2, 023403.[ bib | DOI | arXiv | http ]

V. Gintautas, A. E. Champagne, F. G. Kondev, and R. Longland, Thermal equilibration of Lu176 via K mixing, Phys. Rev. C80 (2009), no. 1, 015806.[ bib | DOI | arXiv | http ]

S. R. Elliott, C. E. Aalseth, M. Akashi-Ronquest, et al., The MAJORANA Project, Journal of Physics Conference Series 173 (2009), no. 1, 012007.[ bib | DOI | arXiv | http ]

A. L. Sallaska, S. Hoedl, A. Garcia, et al., Characterization of thin-foil ultracold neutron detectors, Nuclear Instruments and Methods in Physics Research A 603 (2009), 421–428.[ bib | DOI | http ]

C. L. Morris, T. J. Bowles, J. Gonzales, et al., Multi-wire proportional chamber for ultra-cold neutron detection, Nuclear Instruments and Methods in Physics Research A 599 (2009), 248–250.[ bib | DOI | http ]

P. H. Barker, K. K. H. Leung, and A. P. Byrne, Half-life of the superallowed positron emitter C10, Phys. Rev. C79 (2009), no. 2, 024311.[ bib | DOI | http ]

R. W. Pattie, Jr., J. Anaya, H. O. Back, et al., First Measurement of the Neutron β Asymmetry with Ultracold Neutrons, Physical Review Letters 102 (2009), no. 1, 012301.[ bib | DOI | arXiv | http ]

F. Atchison, B. Blau, K. Bodek, et al., Erratum: Cold Neutron Energy Dependent Production of Ultracold Neutrons in Solid Deuterium [Phys. Rev. Lett. 99, 262502 (2007)], Physical Review Letters 101 (2008), no. 18, 189902.[ bib | DOI | http ]

W. He, C. G. Whyte, E. G. Rafferty, et al., Axis-encircling electron beam generation using a smooth magnetic cusp for gyrodevices, Applied Physics Letters 93 (2008), no. 12, 121501.[ bib | DOI | http ]

J. R. Newton, R. Longland, and C. Iliadis, Matching of experimental and statistical-model thermonuclear reaction rates at high temperatures, Phys. Rev. C78 (2008), no. 2, 025805.[ bib | DOI | http ]

D. S. Leonard, P. Grinberg, P. Weber, et al., Systematic study of trace radioactive impurities in candidate construction materials for EXO-200, Nuclear Instruments and Methods in Physics Research A 591 (2008), 490–509.[ bib | DOI | arXiv | http ]

S. K. Lamoreaux, G. Archibald, P. D. Barnes, et al., Measurement of the ³He mass diffusion coefficient in superfluid ⁴He over the 0.45 0.95 K temperature range, EPL (Europhysics Letters) 82 (2008), 39901.[ bib | DOI | arXiv | http ]

Q. Ye, D. Dutta, H. Gao, et al., Relaxation of spin polarized H3e in mixtures of H3e and H4e below the H4e lambda point, Phys. Rev. A77 (2008), no. 5, 053408.[ bib | DOI | arXiv | http ]

L. Yang, C. R. Brome, J. S. Butterworth, et al., Invited Article: Development of high-field superconducting Ioffe magnetic traps, Review of Scientific Instruments 79 (2008), no. 3, 031301–031301.[ bib | DOI | http ]

F. Atchison, B. Blau, K. Bodek, et al., Cold Neutron Energy Dependent Production of Ultracold Neutrons in Solid Deuterium, Physical Review Letters 99 (2007), no. 26, 262502.[ bib | DOI | http ]

B. Flatt, M. Green, J. Wodin, et al., A linear RFQ ion trap for the Enriched Xenon Observatory, Nuclear Instruments and Methods in Physics Research A 578 (2007), 399–408.[ bib | DOI | arXiv | http ]

F. LePort, A. Pocar, L. Bartoszek, et al., A liquid xenon ionization chamber in an all-fluoropolymer vessel, Nuclear Instruments and Methods in Physics Research A 578 (2007), 409–420.[ bib | DOI | arXiv | http ]

E. Korobkina, B. W. Wehring, A. I. Hawari, et al., An ultracold neutron source at the NC State University PULSTAR reactor, Nuclear Instruments and Methods in Physics Research A 579 (2007), 530–533.[ bib | DOI | http ]

M. Green, J. Wodin, R. Devoe, et al., Observation of single collisionally cooled trapped ions in a buffer gas, Phys. Rev. A76 (2007), no. 2, 023404.[ bib | DOI | arXiv | http ]

C. Ugalde, A. E. Champagne, S. Daigle, et al., Experimental evidence for a natural parity state in Mg26 and its impact on the production of neutrons for the s process, Phys. Rev. C76 (2007), no. 2, 025802.[ bib | DOI | arXiv | http ]

A. W. Cross, W. He, A. D. R. Phelps, et al., Helically corrugated waveguide gyrotron traveling wave amplifier using a thermionic cathode electron gun, Applied Physics Letters 90 (2007), no. 25, 253501.[ bib | DOI | http ]

I. V. Konoplev, A. W. Cross, P. MacInnes, et al., Response to “Comment on `High current oversized electron beam formation for high-power microwave research’ [Appl. Phys. Lett. 89, 171503 (2006)]”, Applied Physics Letters 90 (2007), no. 26, 266102.[ bib | DOI | http ]

J. R. Newton, C. Iliadis, A. E. Champagne, R. Longland, and C. Ugalde, Remeasurement of the 193 keV resonance in O17(p,α)N14, Phys. Rev. C75 (2007), no. 5, 055808.[ bib | DOI | http ]

S. K. Lamoreaux and R. Golub, Comment on “Improved Experimental Limit on the Electric Dipole Moment of the Neutron”, Physical Review Letters 98 (2007), no. 14, 149101.[ bib | DOI | arXiv | http ]

E. Traykov, A. Rogachevskiy, M. Bosswell, et al., Production of radioactive nuclides in inverse reaction kinematics, Nuclear Instruments and Methods in Physics Research A 572 (2007), 580–584.[ bib | DOI | arXiv | http ]

A. L. Barabanov, R. Golub, and S. K. Lamoreaux, Electric dipole moment searches: Effect of linear electric field frequency shifts induced in confined gases, Phys. Rev. A74 (2006), no. 5, 052115.[ bib | DOI | arXiv | http ]

P. R. Huffman, M. Arif, T. C. Black, et al., Precision neutron interferometric measurements of the n-p, n-d, and n- ³He zero-energy coherent neutron scattering amplitudes, Physica B Condensed Matter 385 (2006), 1365–1370.[ bib | DOI | arXiv | http ]

I. V. Konoplev, A. W. Cross, P. MacInnes, et al., High-current oversized annular electron beam formation for high-power microwave research, Applied Physics Letters 89 (2006), no. 17, 171503.[ bib | DOI | http ]

R. Longland, C. Iliadis, A. E. Champagne, C. Fox, and J. R. Newton, Nuclear astrophysics studies at the LENA facility: The γ-ray detection system, Nuclear Instruments and Methods in Physics Research A 566 (2006), 452–464.[ bib | DOI | http ]

C. R. Gould, E. I. Sharapov, and S. K. Lamoreaux, Time variability of α from realistic models of Oklo reactors, Phys. Rev. C74 (2006), no. 2, 024607.[ bib | DOI | arXiv | http ]

G. V. Danilyan, A. V. Fedorov, V. A. Krakhotin, et al., Search for scission neutrons using specific angular correlations in ²³⁵U fission induced by slow polarized neutrons, Physics of Atomic Nuclei 69 (2006), 1158–1160.[ bib | DOI | http ]

S. A. Hoedl, A. R. Young, H. Ade, and A. Lozano, An electron transparent proton detector for neutron decay studies, Journal of Applied Physics 99 (2006), no. 8, 084904–084904.[ bib | DOI | http ]

S. R. Elliott, V. M. Gehman, K. Kazkaz, D.-M. Mei, and A. R. Young, Pulse shape analysis in segmented detectors as a technique for background reduction in Ge double-beta decay experiments, Nuclear Instruments and Methods in Physics Research A 558 (2006), 504–510.[ bib | DOI | arXiv | http ]

R. D. Foster, C. R. Gould, D. G. Haase, et al., Measurement of the relative longitudinal spin-dependent total cross-section difference in n->-d-> scattering, Phys. Rev. C73 (2006), no. 3, 034002.[ bib | DOI | http ]

R. Golub, R. Gähler, K. Habicht, and S. Klimko, Bunching of continuous neutron beams, Physics Letters A 349 (2006), 59–66.[ bib | DOI | http ]

J. W. Martin, J. Yuan, M. J. Betancourt, et al., New measurements and quantitative analysis of electron backscattering in the energy range of neutron β-decay, Phys. Rev. C73 (2006), no. 1, 015501.[ bib | DOI | arXiv | http ]

W. He, K. Ronald, A. R. Young, et al., Gyro-BWO Experiments Using a Helical Interaction Waveguide, IEEE Transactions on Electron Devices 52 (2005), 839–844.[ bib | DOI | http ]

C. Fox, C. Iliadis, A. E. Champagne, et al., Thermonuclear reaction rate of ¹⁷O(p,γ)¹⁸F, Phys. Rev. C71 (2005), no. 5, 055801.[ bib | DOI | http ]

G. Burt, S. V. Samsonov, A. D. R. Phelps, et al., Microwave Pulse Compression Using a Helically Corrugated Waveguide, IEEE Transactions on Plasma Science 33 (2005), 661–667.[ bib | DOI | http ]

D. S. Hussey, D. L. Jacobson, M. Arif, et al., New neutron imaging facility at the NIST, Nuclear Instruments and Methods in Physics Research A 542 (2005), 9–15.[ bib | DOI | http ]

S. K. Lamoreaux and R. Golub, Detailed discussion of a linear electric field frequency shift induced in confined gases by a magnetic field gradient: Implications for neutron electric-dipole-moment experiments, Phys. Rev. A 71 (2005), no. 3, 032104.[ bib | DOI | arXiv | http ]

T. Araki, K. Eguchi, S. Enomoto, et al., Measurement of Neutrino Oscillation with KamLAND: Evidence of Spectral Distortion, Physical Review Letters 94 (2005), no. 8, 081801.[ bib | DOI | arXiv | http ]

R. C. Runkle, A. E. Champagne, C. Angulo, et al., Direct Measurement of the ¹⁴N(p,γ)¹⁵O S Factor, Physical Review Letters 94 (2005), no. 8, 082503.[ bib | DOI | arXiv | http ]

C. E. Aalseth, D. Anderson, R. Arthur, et al., The proposed Majorana ⁷⁶Ge double-beta decay experiment, Nuclear Physics B Proceedings Supplements 138 (2005), 217–220.[ bib | DOI | http ]

E. V. Brakhman, G. V. Danilyan, A. V. Fedorov, et al., Search for P-odd asymmetry of prompt neutron emission in 235U fission induced by cold polarized neutrons, Soviet Journal of Experimental and Theoretical Physics Letters 80 (2004), 675–677.[ bib | DOI | http ]

C. E. Aalseth, D. Anderson, R. Arthur, et al., The majorana neutrinoless double-beta decay experiment, Physics of Atomic Nuclei 67 (2004), 2002–2010.[ bib | DOI | arXiv | http ]

G. Burt, S. V. Samsonov, K. Ronald, et al., Dispersion of helically corrugated waveguides: Analytical, numerical, and experimental study, Phys. Rev. E70 (2004), no. 4, 046402.[ bib | DOI | http ]

T. Keller, K. Habicht, R. Golub, and F. Mezei, Roton and phonon linewidths in superfluid ⁴He, EPL (Europhysics Letters) 67 (2004), 773–778.[ bib | DOI | http ]

M. E. Hayden, G. Archibald, P. D. Barnes, et al., Neutron-Detected Tomography of Impurity-Seeded Superfluid Helium, Physical Review Letters 93 (2004), no. 10, 105302.[ bib | DOI | http ]

C. Fox, C. Iliadis, A. E. Champagne, et al., Explosive Hydrogen Burning of ¹⁷O in Classical Novae, Physical Review Letters 93 (2004), no. 8, 081102.[ bib | DOI | http ]

A. Saunders, J. M. Anaya, T. J. Bowles, et al., Demonstration of a solid deuterium source of ultra-cold neutrons, Physics Letters B 593 (2004), 55–60.[ bib | DOI | arXiv | http ]

E. Korobkina, R. Golub, J. Butterworth, P. Geltenbort, and S. Arzumanov, Temperature dependence of ultracold neutron loss rates, Phys. Rev. B70 (2004), no. 3, 035409.[ bib | DOI | http ]

P. R. Huffman, D. L. Jacobson, K. Schoen, et al., Precision neutron interferometric measurement of the n- ³He coherent neutron scattering length, Phys. Rev. C70 (2004), no. 1, 014004.[ bib | DOI | http ]

K. Habicht, T. Keller, and R. Golub, The resolution matrix for neutron spin-echo three-axis spectroscopy, Physica B Condensed Matter 350 (2004), E803–E806.[ bib | DOI | http ]

S. N. Dzhosyuk, C. E. H. Mattoni, D. N. McKinsey, et al., Neutron-induced luminescence and activation in neutron shielding and scintillation detection materials at cryogenic temperatures, Nuclear Instruments and Methods in Physics Research B 217 (2004), 457–470.[ bib | DOI | http ]

K. Habicht, R. Golub, F. Mezei, B. Keimer, and T. Keller, Temperature-dependent phonon lifetimes in lead investigated with neutron-resonance spin-echo spectroscopy, Phys. Rev. B69 (2004), no. 10, 104301.[ bib | DOI | http ]

M. H. Schleier-Smith, L. D. van Buuren, J. M. Doyle, et al., The production of nitrogen-13 by neutron capture in boron compounds, Nuclear Instruments and Methods in Physics Research B 215 (2004), 531–536.[ bib | DOI | http ]

K. Eguchi, S. Enomoto, K. Furuno, et al., High Sensitivity Search for ν_e‘s from the Sun and Other Sources at KamLAND, Physical Review Letters 92 (2004), no. 7, 071301.[ bib | DOI | arXiv | http ]

C. E. H. Mattoni, C. P. Adams, K. J. Alvine, et al., A long wavelength neutron monochromator for superthermal production of ultracold neutrons, Physica B Condensed Matter 344 (2004), 343–357.[ bib | DOI | http ]

H. G. Rees, M. G. R. Holmes, A. R. Young, and S. R. Kansakar, Recession-based hydrological models for estimating low flows in ungauged catchments in the Himalayas, Hydrology and Earth System Sciences 8 (2004), 891–902.[ bib | http ]

D. N. McKinsey, C. R. Brome, J. S. Butterworth, et al., Detecting ionizing radiation in liquid helium using wavelength shifting light collection, Nuclear Instruments and Methods in Physics Research A 516 (2004), 475–485.[ bib | DOI | http ]

E. D. Davis, C. R. Gould, G. E. Mitchell, and E. I. Sharapov, Bounds on P -odd T -odd interactions from polarized neutron capture with unpolarized targets, Phys. Rev. C69 (2004), no. 1, 015501.[ bib | DOI | http ]

J. W. Martin, J. Yuan, S. A. Hoedl, et al., Measurement of electron backscattering in the energy range of neutron β decay, Phys. Rev. C68 (2003), no. 5, 055503.[ bib | DOI | arXiv | http ]

C.-Y. Liu, S. K. Lamoreaux, A. Saunders, D. Smith, and A. R. Young, An apparatus to control and monitor the para-D ₂ concentration in a solid deuterium, superthermal source of ultra-cold neutrons, Nuclear Instruments and Methods in Physics Research A 508 (2003), 257–267.[ bib | DOI | arXiv | http ]

L. Yang, S. N. Dzhosyuk, J. M. Gabrielse, et al., Performance of a large-area avalanche photodiode at low temperature for scintillation detection, Nuclear Instruments and Methods in Physics Research A 508 (2003), 388–393.[ bib | DOI | http ]

A. P. Serebrov, M. S. Lasakov, A. V. Vassiljev, et al., Depolarization of ultracold neutrons during their storage in material bottles, Physics Letters A 313 (2003), 373–379.[ bib | DOI | http ]

D. N. McKinsey, C. R. Brome, S. N. Dzhosyuk, et al., Time dependence of liquid-helium fluorescence, Phys. Rev. A67 (2003), no. 6, 062716.[ bib | DOI | http ]

T. C. Black, P. R. Huffman, D. L. Jacobson, et al., Precision Neutron Interferometric Measurement of the nd Coherent Neutron Scattering Length and Consequences for Models of Three-Nucleon Forces, Physical Review Letters 90 (2003), no. 19, 192502.[ bib | DOI | arXiv | http ]

M. E. Hayden, G. Archibald, P. D. Barnes, et al., Neutron radiography of helium II, Physica B Condensed Matter 329 (2003), 236–237.[ bib | DOI | http ]

R. A. Golub and J. W. Posey, Aircraft system noise prediction: Past, present, and future, Acoustical Society of America Journal 113 (2003), 2244–2245.[ bib | http ]

K. Schoen, D. L. Jacobson, M. Arif, et al., Precision neutron interferometric measurements and updated evaluations of the n-p and n-d coherent neutron scattering lengths, Phys. Rev. C67 (2003), no. 4, 044005.[ bib | DOI | arXiv | http ]

K. Eguchi, S. Enomoto, K. Furuno, et al., First Results from KamLAND: Evidence for Reactor Antineutrino Disappearance, Physical Review Letters 90 (2003), no. 2, 021802.[ bib | DOI | arXiv | http ]

C. L. Morris, J. M. Anaya, T. J. Bowles, et al., Measurements of Ultracold-Neutron Lifetimes in Solid Deuterium, Physical Review Letters 89 (2002), no. 27, 272501.[ bib | DOI | arXiv | http ]

S. K. Lamoreaux and R. Golub, Calculation of the ultracold neutron upscattering loss probability in fluid walled storage bottles using experimental measurements of the liquid thermomechanical properties of fomblin, Phys. Rev. C66 (2002), no. 4, 044309.[ bib | DOI | arXiv | http ]

E. Korobkina, R. Golub, B. W. Wehring, and A. R. Young, Production of UCN by downscattering in superfluid He ⁴, Physics Letters A 301 (2002), 462–469.[ bib | DOI | arXiv | http ]

S. K. Lamoreaux, G. Archibald, P. D. Barnes, et al., Measurement of the ³He mass diffusion coefficient in superfluid ⁴He over the 0.45 0.95 K temperature range, EPL (Europhysics Letters) 58 (2002), 718–724.[ bib | DOI | arXiv | http ]

R. Golub, I. L. Karpikhin, P. A. Krupchitsky, S. Lamoreaux, and V. V. Vasiliev, Detection of neutron-spin rotation in neutron scattering by ²⁰⁴Pb, Physics of Atomic Nuclei 65 (2002), 795–798.[ bib | DOI | http ]

W. Tornow, C. R. Gould, D. G. Haase, J. R. Walston, and B. W. Raichle, Double polarized neutron-proton scattering and nucleon-nucleon tensor force: An alternative analysis, Phys. Rev. C65 (2002), no. 4, 047002.[ bib | DOI | http ]

J. Füzi, R. Golub, F. Mezei, and L. Rosta, Accuracy evaluation of hexapole electromagnets, Applied Physics A: Materials Science & Processing 74 (2002), 210–212.[ bib | DOI | http ]

M. G. R. Holmes, A. R. Young, A. Gustard, and R. Grew, A new approach to estimating Mean Flow in the UK, Hydrology and Earth System Sciences 6 (2002), 709–720.[ bib | http ]

M. G. R. Holmes, A. R. Young, A. Gustard, and R. Grew, A region of influence approach to predicting flow duration curves within ungauged catchments, Hydrology and Earth System Sciences 6 (2002), 721–731.[ bib | http ]

M. D. Zaidman, H. G. Rees, and A. R. Young, Spatio-temporal development of streamflow droughts in north-west Europe, Hydrology and Earth System Sciences 6 (2002), 733–751.[ bib | http ]

T. Keller, B. Keimer, K. Habicht, R. Golub, and F. Mezei, Neutron Resonance Spin Echo – Triple Axis Spectrometry (NRSE-TAS), Neutron Spin Echo Spectroscopy: Basics, Trends and Applications (F. Mezei, C. Pappas, and T. Gutberlet, eds.), Lecture Notes in Physics, Berlin Springer Verlag, vol. 601, 2002, pp. 74–86.[ bib | http ]

K. Habicht, R. Golub, R. Gähler, and T. Keller, Space-Time View of Neutron Spin Echo, Correlation Functions and Phonon Focusing, Neutron Spin Echo Spectroscopy: Basics, Trends and Applications (F. Mezei, C. Pappas, and T. Gutberlet, eds.), Lecture Notes in Physics, Berlin Springer Verlag, vol. 601, 2002, pp. 116–132.[ bib | http ]

M. Bleuel, F. Demmel, R. Gähler, et al., Future Developments in Resonance Spin Echo, Neutron Spin Echo Spectroscopy: Basics, Trends and Applications (F. Mezei, C. Pappas, and T. Gutberlet, eds.), Lecture Notes in Physics, Berlin Springer Verlag, vol. 601, 2002, pp. 176–200.[ bib | http ]

A. P. Serebrov, E. A. Kolomenski, M. S. Lasakov, et al., Experimental Studies of Very Cold Neutrons Passing Through Solid Deuterium, Soviet Journal of Experimental and Theoretical Physics Letters 74 (2001), 302–305.[ bib | DOI | http ]

M. T. Rekveldt, T. Keller, and R. Golub, Larmor precession, a technique for high-sensitivity neutron diffraction, EPL (Europhysics Letters) 54 (2001), 342–346.[ bib | DOI | http ]

C. R. Brome, J. S. Butterworth, S. N. Dzhosyuk, et al., Magnetic trapping of ultracold neutrons, Phys. Rev. C63 (2001), no. 5, 055502.[ bib | DOI | arXiv | http ]

P. Huffman, Magnetically stabilized luminescent excitations in hexagonal boron nitride, Journal of Luminescence 92 (2001), 291–296.[ bib | DOI | arXiv | http ]

J. R. Walston, C. R. Gould, D. G. Haase, et al., Low-energy NN tensor force from n–>-p–> scattering: Results of an accurate experimental approach, Phys. Rev. C63 (2001), no. 1, 014004.[ bib | DOI | http ]

J. Felber, R. Gähler, and R. Golub, Comment on “Giant Absorption Cross Section of Ultracold Neutrons in Gadolinium”, Physical Review Letters 85 (2000), 5667.[ bib | DOI | arXiv | http ]

C.-Y. Liu, A. R. Young, and S. K. Lamoreaux, Ultracold neutron upscattering rates in a molecular deuterium crystal, Phys. Rev. B62 (2000), R3581–R3583.[ bib | DOI | arXiv | http ]

S. K. Lamoreaux and R. Golub, Remarks on “New experimental limit on the electric dipole moment of the neutron”, Phys. Rev. D61 (2000), no. 5, 051301.[ bib | DOI | arXiv | http ]

V. L. Bratman, A. W. Cross, G. G. Denisov, et al., High-Gain Wide-Band Gyrotron Traveling Wave Amplifier with a Helically Corrugated Waveguide, Physical Review Letters 84 (2000), 2746–2749.[ bib | DOI | http ]

P. R. Huffman, C. R. Brome, J. S. Butterworth, et al., Progress towards magnetic trapping of ultra-cold neutrons, Nuclear Instruments and Methods in Physics Research A 440 (2000), 522–527.[ bib | DOI | http ]

J. Felber, R. Gähler, R. Golub, and T. Hils, Some aspects of a time-domain neutron optics experiment, Nuclear Instruments and Methods in Physics Research A 440 (2000), 585–590.[ bib | DOI | http ]

A. Serebrov, A. Vasiliev, M. Lasakov, et al., Depolarization of UCN stored in material traps, Nuclear Instruments and Methods in Physics Research A 440 (2000), 717–721.[ bib | DOI | http ]

A. Hatakeyama, K. Oe, K. Ota, et al., Slow Spin Relaxation of Rb Atoms Confined in Glass Cells Filled with Dense ⁴He Gas at 1.85 K, Physical Review Letters 84 (2000), 1407–1410.[ bib | DOI | http ]

A. R. Young, C. E. Round, and A. Gustard, Spatial and temporal variations in the occurrence of low flow events in the UK, Hydrology and Earth System Sciences 4 (2000), 35–45.[ bib | http ]

P. R. Huffman, C. R. Brome, J. S. Butterworth, et al., Magnetic trapping of neutrons, Nature403 (2000), 62–64.[ bib | DOI | arXiv | http ]

I. Ahmad, S. M. Austin, B. B. Back, et al., Positron-electron pairs produced in heavy-ion collisions, Phys. Rev. C60 (1999), no. 6, 064601.[ bib | DOI | http ]

B. W. Raichle, C. R. Gould, D. G. Haase, et al., Double Polarized Neutron-Proton Scattering and Meson-Exchange Nucleon-Nucleon Potential Models, Physical Review Letters 83 (1999), 2711–2714.[ bib | DOI | http ]

S. K. Lamoreaux and R. Golub, Comment on “A proposed method for measuring the electric dipole moment of the neutron using acceleration in an electric field gradient and ultracold neutron interferometry”, Nuclear Instruments and Methods in Physics Research A 433 (1999), 690–695.[ bib | DOI | arXiv | http ]

S. K. Lamoreaux and R. Golub, Additional comments on “A proposed method for measuring the electric dipole moment of the neutron using acceleration in an electric field gradient and ultracold neutron interferometry”, Nuclear Instruments and Methods in Physics Research A 433 (1999), 697–701.[ bib | DOI | http ]

M. Köppe, M. Bleuel, R. Gähler, et al., Prospects of resonance spin echo, Physica B Condensed Matter 266 (1999), 75–86.[ bib | DOI | http ]

S. Appelt, A. Ben-Amar Baranga, A. R. Young, and W. Happer, Light narrowing of rubidium magnetic-resonance lines in high-pressure optical-pumping cells, Phys. Rev. A59 (1999), 2078–2084.[ bib | DOI | http ]

E. D. Davis and C. R. Gould, Extraction of bounds on time-reversal non-invariance from neutron reactions, Physics Letters B 447 (1999), 209–215.[ bib | DOI | arXiv | http ]

D. N. McKinsey, C. R. Brome, J. S. Butterworth, et al., Radiative decay of the metastable He₂(a ³Σ⁺_u) molecule in liquid helium, Phys. Rev. A59 (1999), 200–204.[ bib | DOI | http ]

T. Hils, J. Felber, R. Gähler, et al., Matter-wave optics in the time domain: Results of a cold-neutron experiment, Phys. Rev. A58 (1998), 4784–4790.[ bib | DOI | http ]

R. Gähler, J. Felber, F. Mezei, and R. Golub, Erratum: Space-time approach to scattering from many-body systems [Phys. Rev. A 58, 280 (1998)], Phys. Rev. A58 (1998), 4249–4249.[ bib | DOI | http ]

S. J. Seestrom, J. D. Bowman, B. E. Crawford, et al., Parity nonconservation in neutron capture on ¹¹³Cd, Phys. Rev. C58 (1998), 2977–2985.[ bib | DOI | http ]

J. S. Butterworth, C. R. Brome, P. R. Huffman, et al., A removable cryogenic window for transmission of light and neutrons, Review of Scientific Instruments 69 (1998), 3998–3999.[ bib | DOI | http ]

J. S. Butterworth, C. R. Brome, P. R. Huffman, et al., A demountable cryogenic feedthrough for plastic optical fibers, Review of Scientific Instruments 69 (1998), 3697–3698.[ bib | DOI | http ]

A. B.-A. Baranga, S. Appelt, C. J. Erickson, A. R. Young, and W. Happer, Alkali-metal-atom polarization imaging in high-pressure optical-pumping cells, Phys. Rev. A58 (1998), 2282–2294.[ bib | DOI | http ]

S. Appelt, A. B.-A. Baranga, C. J. Erickson, et al., Theory of spin-exchange optical pumping of ³He and ¹²⁹Xe, Phys. Rev. A58 (1998), 1412–1439.[ bib | DOI | http ]

J. R. Walston, C. D. Keith, C. R. Gould, et al., Polarization transfer in the ³H(p–>,n–>)³He reaction and the 0^– level in ⁴He, Phys. Rev. C58 (1998), 1314–1317.[ bib | DOI | http ]

R. Gähler, J. Felber, F. Mezei, and R. Golub, Space-time approach to scattering from many-body systems, Phys. Rev. A58 (1998), 280–295.[ bib | DOI | arXiv | http ]

J. Felber, R. Gähler, R. Golub, and K. Prechtel, Coherence volumes and neutron scattering, Physica B Condensed Matter 252 (1998), 34–43.[ bib | DOI | http ]

P. R. Huffman, C. R. Gould, and D. G. Haase, The deformation effect and time-reversal violation in neutron resonances, Journal of Physics G Nuclear Physics 24 (1998), 763–770.[ bib | DOI | http ]

A. Ben-Amar Baranga, S. Appelt, M. V. Romalis, et al., Polarization of ³He by Spin Exchange with Optically Pumped Rb and K Vapors, Physical Review Letters 80 (1998), 2801–2804.[ bib | DOI | http ]

D. G. Haase, C. D. Keith, C. R. Gould, et al., The scattering of polarized neutrons from statically polarized solid ³He, Nuclear Instruments and Methods in Physics Research A 402 (1998), 341–346.[ bib | DOI | http ]

E. D. Davis and C. R. Gould, On-resonance deformation effect measurements: A probe of order within chaos in the nucleus, Phys. Rev. C 57 (1998), 648–654.[ bib | DOI | http ]

A. M. Saleh, G. Schindler, C. Sarma, et al., Isolation techniques and electrical characterization of single grain boundaries of Bi ₂Sr ₂CaCu ₂O ₂ high-temperature superconductor, Physica C Superconductivity 295 (1998), 225–234.[ bib | DOI | http ]

W. S. Wilburn, C. R. Gould, G. M. Hale, et al., Measurements at Low Energies of the Polarization-Transfer Coefficient for the Reaction H He at, Few-Body Systems 24 (1998), 27–38.[ bib | DOI | arXiv | http ]

C. R. Gould, Neutron optical activity and the weak force, American Journal of Physics 65 (1997), 1213–1217.[ bib | DOI | http ]

D. N. McKinsey, C. R. Brome, J. S. Butterworth, et al., Fluorescence efficiencies of thin scintillating films in the extreme ultraviolet spectral region, Nuclear Instruments and Methods in Physics Research B 132 (1997), 351–358.[ bib | DOI | http ]

A. R. Young, S. Appelt, A. Ben-Amar Baranga, C. Erickson, and W. Happer, Three-dimensional imaging of spin polarization of alkali-metal vapor in optical pumping cells, Applied Physics Letters 70 (1997), 3081–3083.[ bib | DOI | http ]

P. R. Huffman, N. R. Roberson, W. S. Wilburn, et al., Test of parity-conserving time-reversal invariance using polarized neutrons and nuclear spin aligned holmium, Phys. Rev. C55 (1997), 2684–2696.[ bib | DOI | arXiv | http ]

V. P. Alfimenkov, A. N. Chernikov, L. Lason, et al., Energy and orientation dependence of neutron depolarization in a large single crystal of ferromagnetic holmium, Journal of Applied Physics 81 (1997), 1358–1361.[ bib | DOI | http ]

P. Bogorad, E. J. Brash, G. D. Cates, et al., A combined polarized target/ionization chamber for measuring the spin dependence of nuclear muon capture in laser polarized muonic ³He, Nuclear Instruments and Methods in Physics Research A 398 (1997), 211–223.[ bib | DOI | http ]

T. Keller, W. Besenböck, J. Feller, et al., A comparison of spin echo and conventional neutron instruments by the coherence properties of the neutrons, Physica B Condensed Matter 234 (1997), 1120–1125.[ bib | DOI | http ]

T. Keller, R. Golub, F. Mezei, and R. Gähler, Recent developments and results from the neutron resonance spin-echo spectrometer (NRSE) at BENSC Berlin, Physica B Condensed Matter 234 (1997), 1126–1127.[ bib | DOI | http ]

T. Keller, R. Golub, F. Mezei, and R. Gähler, A neutron resonance spin-echo spectrometer (NRSE) with tiltable fields, Physica B Condensed Matter 241 (1997), 101–103.[ bib | DOI | http ]

V. P. Bolotsky, O. N. Ermakov, R. Golub, et al., Measurement of parity-violating neutron spin rotation in ²⁰⁷Pb and natural Pb, Physics of Atomic Nuclei 59 (1996), 1808–1810.[ bib | http ]

P. R. Huffman, C. M. Frankle, C. R. Gould, et al., Neutron resonances in ¹⁶⁶Ho, Phys. Rev. C54 (1996), 2051–2054.[ bib | DOI | http ]

C. D. Keith, C. R. Gould, D. G. Haase, et al., Measurements of the total cross section for the scattering of polarized neutrons from polarized ³He, Phys. Rev. C54 (1996), 477–486.[ bib | DOI | arXiv | http ]

P. R. Huffman, N. R. Roberson, W. S. Wilburn, et al., Test of Parity-Conserving Time-Reversal Invariance Using Polarized Neutrons and Nuclear Spin Aligned Holmium, Physical Review Letters 76 (1996), 4681–4684.[ bib | DOI | http ]

R. Golub, Ultracold neutrons: Their role in studies of condensed matter, Reviews of Modern Physics 68 (1996), 329–347.[ bib | DOI | http ]

I. Ahmad, S. M. Austin, B. B. Back, et al., A solenoidal spectrometer for positron-electron pairs produced in heavy-ion collisions, Nuclear Instruments and Methods in Physics Research A 370 (1996), 539–557.[ bib | DOI | http ]

R. Gähler and R. Golub, Neutron spin optics: a thought experiment with applications, Physics Letters A 213 (1996), 239–244.[ bib | DOI | http ]

R. Gähler, R. Golub, K. Habicht, T. Keller, and J. Felber, Space-time description of neutron spin echo spectrometry, Physica B Condensed Matter 229 (1996), 1–17.[ bib | DOI | http ]

C. Sarma, G. Schindler, D. G. Haase, C. C. Koch, and A. I. Kingon, Hysteretic current-voltage characteristics of platelet boundaries in melt-textured bulk Ag-doped YBa ₂Cu ₃O _7,δ and heating effects, Cryogenics 36 (1996), 123–125.[ bib | DOI | http ]

D. W. Savin, L. D. Gardner, D. B. Reisenfeld, A. R. Young, and J. L. Kohl, Absolute measurement of dielectronic recombination for C³⁺ in a known external field, Phys. Rev. A53 (1996), 280–289.[ bib | DOI | http ]

J. Felber, R. Gähler, C. Rausch, and R. Golub, Matter waves at a vibrating surface: Transition from quantum-mechanical to classical behavior, Phys. Rev. A53 (1996), 319–328.[ bib | DOI | http ]

W. S. Wilburn, C. R. Gould, D. G. Haase, et al., Measurements of Δσ_T in polarized-neutron-polarized-proton scattering, Phys. Rev. C52 (1995), 2351–2361.[ bib | DOI | arXiv | http ]

A. R. Young, W. S. Anderson, F. P. Calaprice, et al., Laser oriented ³⁶K for time reversal symmetry measurements, Phys. Rev. C52 (1995), R464–R467.[ bib | DOI | http ]

D. W. Savin, L. D. Gardner, D. B. Reisenfeld, A. R. Young, and J. L. Kohl, Absolute-rate coefficient for C^{3 +} (2s –> 2p) electron-impact excitation, Phys. Rev. A51 (1995), 2162–2168.[ bib | DOI | http ]

W. S. Wilburn, C. R. Gould, D. G. Haase, et al., Determination of the concentration of SF ₆ in an accelerator gas mixture by measuring the velocity of sound, Nuclear Instruments and Methods in Physics Research A 355 (1995), 195–198.[ bib | DOI | http ]

P. P. J. Delheij, J. D. Bowman, C. M. Frankle, et al., The TRIPLE spin filter, Nuclear Instruments and Methods in Physics Research A 356 (1995), 120–121.[ bib | DOI | http ]

M. L. Seely, C. R. Gould, D. G. Haase, et al., Polarized targets at triangle universities nuclear laboratory, Nuclear Instruments and Methods in Physics Research A 356 (1995), 142–147.[ bib | DOI | http ]

C. D. Keith, C. R. Gould, D. G. Haase, et al., A polarized solid ³He target for neutron transmission experiments, Nuclear Instruments and Methods in Physics Research A 357 (1995), 34–39.[ bib | DOI | http ]

F. Mezei, R. Golub, F. Klose, and H. Toews, Focussed beam reflectometer for solid and liquid surfaces, Physica B Condensed Matter 213 (1995), 898–900.[ bib | DOI | http ]

C. Sarma, G. Schindler, D. G. Haase, et al., Strong and weak-link behavior of single grain boundaries in melt textured bulk Ag doped YBa ₂Cu ₃O _7-δ, Physica C Superconductivity 244 (1995), 287–292.[ bib | DOI | http ]

V. P. Alfimenkov, Y. D. Mareev, V. V. Novitsky, et al., Measurements of epithermal neutron depolarization using a polarized rare earth target, Nuclear Instruments and Methods in Physics Research A 352 (1995), 592–595.[ bib | DOI | http ]

P. R. Huffman, a Measurement of the Parity-Conserving Time-Reversal Violating Cross Section of Polarized Neutrons on Aligned Holmium, Ph.D. thesis, DUKE UNIVERSITY., January 1995.[ bib | http ]

D. W. Savin, L. D. Gardner, D. B. Reisenfeld, A. R. Young, and J. L. Kohl, In situ absolute calibration of a channel electron multiplier for detection of positive ions, Review of Scientific Instruments 66 (1995), 67–71.[ bib | DOI | http ]

J. D. Bowman, C. M. Frankle, A. A. Green, et al., Parity Violation in the Compound Nucleus, Chinese Journal of Physics 32 (1994), 989.[ bib | http ]

J. Engel, C. R. Gould, and V. Hnizdo, Microscopic T-Violating Optical Potential: Implications for Neutron-Transmission Experiments, Physical Review Letters 73 (1994), 3508–3511.[ bib | DOI | arXiv | http ]

S. K. Lamoreaux and R. Golub, General analysis for experimental studies of time-reversal-violating effects in slow neutron propagation through polarized matter, Phys. Rev. D50 (1994), 5632–5638.[ bib | DOI | http ]

R. Golub, R. Gähler, and T. Keller, A plane wave approach to particle beam magnetic resonance, American Journal of Physics 62 (1994), 779–788.[ bib | DOI | http ]

C. D. Keith, C. R. Gould, D. G. Haase, et al., Sensitivity of polarized neutron-polarized ³He scattering to the excited level structure of ⁴He, Phys. Rev. C50 (1994), 237–244.[ bib | DOI | http ]

R. Golub and S. K. Lamoreaux, Neutron electric-dipole moment, ultracold neutrons and polarized ³He, Phys. Rep.237 (1994), 1–62.[ bib | DOI | http ]

V. Hnizdo and C. R. Gould, Optical-model description of time-reversal violation in neutron-nucleus scattering, Phys. Rev. C49 (1994), R612–R615.[ bib | DOI | arXiv | http ]

J. E. Koster, C. R. Gould, D. G. Haase, and N. R. Roberson, Spatial orientation of nuclei: Mass deformation in 165-holmium, Phys. Rev. C 49 (1994), 710–717.[ bib | DOI | http ]

C. Sarma, G. Schindler, D. G. Haase, et al., Measurement of current voltage characteristics of single grain boundaries in melt textured bulk YBa₂Cu₃O_x, Applied Physics Letters 64 (1994), 109–111.[ bib | DOI | http ]

G. Schindler, C. Sarma, D. G. Haase, C. C. Koch, and A. I. Kingon, Techniques for isolation and electrical characterization of individual grain boundaries in polycrystalline superconductors, Cryogenics 34 (1994), 287–292.[ bib | DOI | http ]

A. R. Young, L. D. Gardner, D. W. Savin, et al., Measurement of C³⁺ dielectronic recombination in a known external field, Phys. Rev. A 49 (1994), 357–362.[ bib | DOI | http ]

S. K. Lamoreaux and R. Golub, Angular distribution of ultracold neutrons produced by scattering of cold neutrons in superfluid ⁴He, Soviet Journal of Experimental and Theoretical Physics Letters 58 (1993), 792.[ bib | http ]

S. K. Lamoreaux and R. Golub, Angular distribution of ultracold neutrons produced by scattering of cold neutrons in superfluid ⁴He, ZhETF Pisma Redaktsiiu 58 (1993), 844.[ bib | http ]

C. M. Frankle, J. D. Bowman, B. E. Crawford, et al., Neutron resonance spectroscopy of ¹¹³In and ¹¹⁵In, Phys. Rev. C48 (1993), 1601–1608.[ bib | DOI | http ]

J. D. Bowman, P. P. J. Delheij, C. M. Frankle, et al., Experimental limit on parity violation in nonresonant neutron-nucleus scattering, Phys. Rev. C48 (1993), 1116–1119.[ bib | DOI | http ]

W. S. Wilburn, C. R. Gould, D. G. Haase, et al., Measurements of polarized-neutron-polarized-proton scattering: Implications for the triton binding energy, Physical Review Letters 71 (1993), 1982–1985.[ bib | DOI | http ]

D. G. Haase, J. D. Bowman, P. P. J. Delheij, et al., Bulk magnetic structure studies using polarized epithermal neutrons, Nuclear Instruments and Methods in Physics Research B 79 (1993), 300–302.[ bib | DOI | http ]

C. M. Frankle, J. D. Bowman, J. N. Knudson, et al., Measurement of parity violation in compound nuclear resonances using epithermal polarized neutrons, Nuclear Instruments and Methods in Physics Research B 79 (1993), 306–308.[ bib | DOI | http ]

D. Haase, Electroheologoical liquids, The Physics Teacher 31 (1993), 218–219.[ bib | DOI | http ]

N. R. Roberson, C. D. Bowman, J. D. Bowman, et al., An apparatus and techniques of tests for fundamental symmetries in compound-nucleus scattering with epithermal polarized neutron beams, Nuclear Instruments and Methods in Physics Research A 326 (1993), 549–565.[ bib | DOI | http ]

R. Golub and S. K. Lamoreaux, Production and storage of ultracold neutrons in superfluid ⁴He, Physical Review Letters 70 (1993), 517.[ bib | DOI | http ]

H. Postma, J. D. Bowman, C. D. Bowman, et al., Parity violation at neutron p-wave resonances of²³⁸U and²³²Th and related questions, Hyperfine Interactions 75 (1992), 153–163.[ bib | DOI | http ]

J. E. Koster, E. D. Davis, C. R. Gould, et al., Test of time reversal invariance in 2-MeV neutron scattering from aligned¹⁶⁵Ho, Hyperfine Interactions 75 (1992), 165–172.[ bib | DOI | http ]

C. D. Keith, C. R. Gould, D. G. Haase, et al., ³He melting curve thermometry in a nuclear polarization experiment, Hyperfine Interactions 75 (1992), 525–532.[ bib | DOI | http ]

D. G. Haase, J. D. Bowman, P. P. J. Delheij, et al., Depolarization of neutrons in ferromagnetic holmium by means of enhanced nuclear parity violation in ¹³⁹La, Phys. Rev. B46 (1992), 11290–11294.[ bib | DOI | http ]

C. M. Frankle, J. D. Bowman, J. E. Bush, et al., Parity nonconservation for the 0.88-eV neutron resonance in ⁸¹Br, Phys. Rev. C 46 (1992), 1542–1545.[ bib | DOI | http ]

X. Zhu, J. D. Bowman, C. D. Bowman, et al., Parity nonconservation for neutron resonances in ²³⁸U, Phys. Rev. C46 (1992), 768–777.[ bib | DOI | http ]

C. M. Frankle, J. D. Bowman, J. E. Bush, et al., Parity nonconservation for neutron resonances in ²³²Th, Phys. Rev. C46 (1992), 778–787.[ bib | DOI | http ]

R. Gähler, R. Golub, and T. Keller, Neutron resonance spin echo-a new tool for high resolution spectroscopy, Physica B Condensed Matter 180 (1992), 899–902.[ bib | DOI | http ]

J. E. Koster, C. R. Gould, D. G. Haase, and N. R. Roberson, A rotating aligned holmium target for neutron transmission measurements, Nuclear Instruments and Methods in Physics Research A 313 (1992), 464–470.[ bib | DOI | http ]

R. Golub and S. K. Lamoreaux, Elucidation of the neutron coherence length and a matter-wave sideband interferometer, Physics Letters A 162 (1992), 122–128.[ bib | DOI | http ]

J. D. Bowman, G. T. Garvey, C. R. Gould, A. C. Hayes, and M. B. Johnson, Parity violation in the compound nucleus: The role of distant states, Physical Review Letters 68 (1992), 780–783.[ bib | DOI | http ]

H. Yoshiki and R. Golub, Ultra-cold anti-neutrons (UC overlineN) . (II). Production probability under magnetic and gravitational fields, Nuclear Physics A 536 (1992), 648–668.[ bib | DOI | http ]

J. P. Soderstrum, C. R. Gould, D. G. Haase, et al., Transverse and longitudinal polarized-neutron, polarized-⁹³Nb scattering, and the tensor spin-spin potential, Phys. Rev. C45 (1992), 326–330.[ bib | DOI | http ]

V. W. Yuan, C. D. Bowman, J. D. Bowman, et al., Parity nonconservation in polarized-neutron transmission through ¹³⁹La, Phys. Rev. C 44 (1991), 2187–2194.[ bib | DOI | http ]

J. E. Koster, E. D. Davis, C. R. Gould, et al., Direct reaction test of T violation in 2 MeV neutron scattering from aligned ¹⁶⁵Ho, Physics Letters B 267 (1991), 23–26.[ bib | DOI | http ]

C. M. Frankle, J. D. Bowman, J. E. Bush, et al., Sign correlations and parity nonconservation for neutron resonances in ²³²Th, Physical Review Letters 67 (1991), 564–567.[ bib | DOI | http ]

J. J. Szymanski, C. D. Bowman, J. D. Bowman, et al., Parity and time reversal symmetry nonconservation in neutron-nucleus interactions, Nuclear Physics A 527 (1991), 701–706.[ bib | DOI | http ]

S. K. Lamoreaux, R. Golub, and J. M. Pendlebury, Conflict between nulls: mutual exclusiveness of the search for n-n oscillations and searches for an antimatter-matter dependence of the gravitational interaction, EPL (Europhysics Letters) 14 (1991), 503.[ bib | DOI | http ]

E. Gutsmiedl, R. Golub, and J. Butterworth, Spectroscopic study of scattering of UCN by liquid HE ⁴, Physica B Condensed Matter 169 (1991), 503–504.[ bib | DOI | http ]

J. D. Bowman, C. D. Bowman, J. E. Bush, et al., Parity nonconservation for neutron resonances in ²³⁸U, Physical Review Letters 65 (1990), 1192–1195.[ bib | DOI | http ]

R. Golub, S. Felber, R. Gähler, and E. Gutsmiedl, A modest proposal concerning tunneling times, Physics Letters A 148 (1990), 27–30.[ bib | DOI | http ]

J. E. Koster, C. R. Gould, D. G. Haase, and N. R. Roberson, A mechanism for precise rotation of nuclear targets at low temperatures, Physica B Condensed Matter 165 (1990), 153–154.[ bib | DOI | http ]

J. Felber, G. Müller, R. Gähler, and R. Golub, Time dependent neutron optics II. Diffraction in space and time, Physica B Condensed Matter 162 (1990), 191–196.[ bib | DOI | http ]

T. Keller, P. Zimmermann, R. Golub, and R. Gähler, Demonstration of a “bootstrap” method for neutron resonance spin echo (NRSE) spectrometry, Physica B Condensed Matter 162 (1990), 327–330.[ bib | DOI | http ]

C. R. Gould, D. G. Haase, N. R. Roberson, H. Postma, and J. D. Bowman, Parity and Time Reversal Violation in Resonance Neutron Total Cross Sections with Polarized Targets, International Journal of Modern Physics A 5 (1990), 2181–2194.[ bib | DOI | http ]

R. Golub, H. Yoshiki, and R. Gähler, From ultracold antineutrons to neutron spin echo-The bootstrap offers significant gains in sensitivity, Nuclear Instruments and Methods in Physics Research A 284 (1989), 16–21.[ bib | DOI | http ]

R. Golub and R. Gähler, Neutrons with <σ_z> > 100 and “polarization amplification”, Nuclear Instruments and Methods in Physics Research A 284 (1989), 188–189.[ bib | DOI | http ]

R. Golub and H. Yoshiki, Ultra-cold anti-neutrons (UCN) (I). The approach to the semi-classical limit, Nuclear Physics A 501 (1989), 869–876.[ bib | DOI | http ]

L. N. Yadon, C. I. Nicholls, and D. G. Haase, Thermal conductivity of solid N₂-Ar alloys, Phys. Rev. B40 (1989), 5215–5217.[ bib | DOI | http ]

R. Golub and R. Gähler, Measurement of <σ _z> ~ 100 for a spin- {1}/{2} particle or “polarization amplification” of <σ> ~ 1?, Physics Letters A 136 (1989), 178–182.[ bib | DOI | http ]

J. E. Koster, D. G. Haase, and R. G. Goodrich, Comment on superconducting fixed points and interpolations, Cryogenics 29 (1989), 1017–1019.[ bib | DOI | http ]

R. Gähler, R. Golub, and T. Keller, Possible improvements in high resolution spectroscopy, Physica B Condensed Matter 156 (1989), 653–656.[ bib | DOI | http ]

C. D. Bowman, J. D. Bowman, P. Herczeg, et al., Facility for parity and time reversal experiments with intense epithermal (eV) neutron beams, Hyperfine Interactions 43 (1988), 117–126.[ bib | DOI | http ]

D. G. Haase, C. R. Gould, G. E. Mitchell, and N. R. Roberson, A proposed investigation of parity non-conserving effects using a polarized target and an unpolarized epithermal neutron beam, Hyperfine Interactions 43 (1988), 127–132.[ bib | DOI | http ]

D. G. Haase, C. R. Gould, J. E. Koster, et al., Studies of parity and time reversal symmetries in neutron scattering from¹⁶⁵Ho, Hyperfine Interactions 43 (1988), 133–138.[ bib | DOI | http ]

J. P. Soderstrum, C. R. Gould, D. G. Haase, et al., Limits on P- and P,T-violating absorption of MeV neutrons in ¹⁶⁵Ho, Phys. Rev. C 38 (1988), 2424–2426.[ bib | DOI | http ]

J. Felber, R. Gähler, and R. Golub, Test of the time dependent Schrödinger equation with very slow neutrons, Physica B+C 151 (1988), 135–139.[ bib | DOI | http ]

C. R. Gould, N. R. Roberson, and W. J. Thompson, Comment on “Spin-spin dependence of total cross sections as an effect of static nuclear deformation”, Physical Review Letters 60 (1988), 2335.[ bib | DOI | http ]

A. I. Kilvington, R. Golub, W. Mampe, and P. Ageron, Scattering of ultra-cold neutrons (UCN) by superfluid helium at temperatures around 1 K, Physics Letters A 125 (1987), 416–420.[ bib | DOI | http ]

S. J. Berkowitz and D. G. Haase, Growing crystals with a computer, Physics Education 22 (1987), 380–383.[ bib | DOI | http ]

C. I. Nicholls, L. N. Yadon, D. G. Haase, and M. S. Conradi, Glassy thermal anomalies due to dipolar reorientations\? Specific heat of N₂-Ar-CO alloys, Physical Review Letters 59 (1987), 1317–1320.[ bib | DOI | http ]

R. Gähler and R. Golub, A high resolution neutron spectrometer for quasielastic scattering on the basis of spin-echo and magnetic resonance, Zeitschrift fur Physik B Condensed Matter 65 (1987), 269–273.[ bib | DOI | http ]

R. Golub and R. Gähler, A neutron resonance spin echo spectrometer for quasi-elastic and inelastic scattering, Physics Letters A 123 (1987), 43–48.[ bib | DOI | http ]

R. Golub, Ultra-Cold Neutrons-Some Applications, Japanese Journal of Applied Physics Supplement 26 (1987), 2073.[ bib | DOI | http ]

C. R. Gould, D. G. Haase, L. W. Seagondollar, et al., Spin-spin potentials in ²⁷Al_{pol+n<SUB>pol}</SUB> and the nuclear Ramsauer effect, Physical Review Letters 57 (1986), 2371–2374.[ bib | DOI | http ]

A. M. Saleh and D. G. Haase, The specific heat of solid N ₂-argon alloys: Low N ₂ concentrations, Solid State Communications 60 (1986), 613–616.[ bib | DOI | http ]

R. Golub and R. Gähler, A note on the magnetic readout of superconducting granule radiation detectors, Nuclear Instruments and Methods in Physics Research A 250 (1986), 579–580.[ bib | DOI | http ]

L. D. Gardner, J. L. Kohl, G. P. Lafyatis, A. R. Young, and A. Chutjian, Experimental apparatus for photon/ion coincidence measurements of dielectronic recombination, Review of Scientific Instruments 57 (1986), 2254–2265.[ bib | DOI | http ]

Z.-C. Yu, S. S. Malik, and R. Golub, A thin film source of ultra-cold neutrons, Zeitschrift fur Physik B Condensed Matter 62 (1986), 137–142.[ bib | DOI | http ]

Q. Li, C. H. Watson, R. G. Goodrich, D. G. Haase, and H. Lukefahr, Thick film chip resistors for use as low temperature thermometers, Cryogenics 26 (1986), 467–470.[ bib | DOI | http ]

D. G. Haase, C. R. Gould, and L. W. Seagondollar, The polarized target – Polarized beam facility at the Triangle Universities Nuclear Laboratory, Hyperfine Interactions 22 (1985), 297–301.[ bib | DOI | http ]

N. R. Roberson and C. R. Gould, A Dual-MBD VAX 11/780 Data Acquisition Facility, IEEE Transactions on Nuclear Science 32 (1985), 1447–1448.[ bib | DOI | http ]

C. S. Whisnant, J. H. Dave, and C. R. Gould, Elastic and inelastic neutron scattering from ²⁷Al at 11, 14, and 17 MeV, Phys. Rev. C30 (1984), 1435–1441.[ bib | DOI | http ]

R. Golub, Ultracold neutrons (UCN) at a TRIGA reactor, Nuclear Instruments and Methods in Physics Research A 226 (1984), 558–559.[ bib | DOI | http ]

L. R. Perrell and D. G. Haase, Self-catalysis in solid hydrogen-A computer simulation, American Journal of Physics 52 (1984), 831–833.[ bib | DOI | http ]

D. G. Haase, L. R. Perrell, and A. M. Saleh, Specific heat, pressure, and the Grüneisen relation in solid hydrogen, Journal of Low Temperature Physics 55 (1984), 283–296.[ bib | DOI | http ]

J. M. Pendlebury, K. F. Smith, R. Golub, et al., Search for a neutron electric dipole moment, Physics Letters B 136 (1984), 327–330.[ bib | DOI | http ]

R. Gähler and R. Golub, Time dependent neutron optics – Quantum mechanical effects on beam chopping and a new type of high resolution neutron spectrometer (FOTOF), Zeitschrift fur Physik B Condensed Matter 56 (1984), 5–12.[ bib | DOI | http ]

J. H. Dave and C. R. Gould, Optical model analysis of scattering of 7- to 15-MeV neutrons from 1-p shell nuclei, Phys. Rev. C28 (1983), 2212–2221.[ bib | DOI | http ]

R. Golub, C. Jewell, P. Ageron, et al., Operation of a superthermal ultra-cold neutron source and the storage of ultra-cold neutrons in superfluid Helium⁴, Zeitschrift fur Physik B Condensed Matter 51 (1983), 187–193.[ bib | DOI | http ]

D. G. Haase and M. A. Klenin, Observation of thermal remanence in a quadrupolar solid, Phys. Rev. B28 (1983), 1453–1456.[ bib | DOI | http ]

R. Golub and A. D. Taylor, Slowing down of neutrons from a pulsed, point, monoenergetic source in a hydrogenous medium, Nuclear Instruments and Methods in Physics Research 212 (1983), 349–357.[ bib | DOI | http ]

R. Golub and K. Böning, New type of low temperature source of Ultra-cold neutrons and production of continous beams of UCN, Zeitschrift fur Physik B Condensed Matter 51 (1983), 95–98.[ bib | DOI | http ]

L. G. Ward, A. M. Saleh, and D. G. Haase, Specific heat of solid nitrogen-argon mixtures: 50 to 100 mol% N₂, Phys. Rev. B27 (1983), 1832–1838.[ bib | DOI | http ]

C. R. Gould and N. R. Roberson, VAX 11/780 Data Acquisition Facility at Triangle Universities Nuclear Laboratory, IEEE Transactions on Nuclear Science 30 (1983), 3758–3763.[ bib | DOI | http ]

S. M. El-Kadi, C. E. Nelson, F. O. Purser, et al., Elastic and inelastic scattering of neutrons from ^{54, 56}Fe and ^{63, 65}Cu . (I). Measurements from 8 to 14 MeV and a spherical optical model analysis, Nuclear Physics A 390 (1982), 509–540.[ bib | DOI | http ]

B. Heckel, N. F. Ramsey, K. Green, et al., A measurement of parity non-conserving neutron spin rotation in lead and tin, Physics Letters B 119 (1982), 298–302.[ bib | DOI | http ]

J. H. Dave, C. R. Gould, S. A. Wender, and S. M. Shafroth, The ¹H( ⁷Li, n) ⁷Be reaction as an intense MeV neutron source, Nuclear Instruments and Methods in Physics Research 200 (1982), 285–290.[ bib | DOI | http ]

C. I. Jewell, R. Golub, and P. V. E. McClintock, Helium-4 isotopic purification without a superleak, Cryogenics 22 (1982), 373–374.[ bib | DOI | http ]

K. Böning, W. Gläser, R. Golub, and J. Meier, The proposed spallation neutron source and modernized reactor as possible sites for a low temperature irradiation facility in Germany*1, Journal of Nuclear Materials 108 (1982), 10–20.[ bib | DOI | http ]

P. Thambidurai, A. G. Beyerle, and C. R. Gould, Tritium break-up contribution to the neutron source reaction ³H(p, n) from 9 to 14 MeV, Nuclear Instruments and Methods in Physics Research 196 (1982), 415–420.[ bib | DOI | http ]

P. H. La Marche, W. A. Lanford, and R. Golub, An investigation of methods to reduce the hydrogen concentration on surfaces useful for ultra-cold neutron storage, Nuclear Instruments and Methods in Physics Research 189 (1981), 533–541.[ bib | DOI | http ]

C. Jewell, B. Heckel, P. Ageron, et al., Observation of the storage of ultra-cold neutrons in liquid helium, Physica B+C 107 (1981), 587–588.[ bib | DOI | http ]

C. R. Gould, Neutron Scattering Experiments at Triangle Universities Nuclear Laboratory, IEEE Transactions on Nuclear Science 28 (1981), 1264–1267.[ bib | DOI | http ]

D. R. Dixon, G. L. Jensen, S. M. Morrill, et al., Multiple Scattering of Protons and Deuterons by Thick Foils, IEEE Transactions on Nuclear Science 28 (1981), 1295–1297.[ bib | DOI | http ]

C. R. Gould, L. G. Holzsweig, S. E. King, et al., The XSYS Data Acquisition System at Triangle Universities Nuclear Laboratory, IEEE Transactions on Nuclear Science 28 (1981), 3708–3714.[ bib | DOI | http ]

S. E. King, Y. C. Lau, and C. R. Gould, Data Acquisition with a VAX 11/780 and MBD Branch Driver, IEEE Transactions on Nuclear Science 28 (1981), 3822–3827.[ bib | DOI | http ]

C. R. Gould, R. Bass, J. V. Czarnecki, et al., Neutron multiplicities in inelastic collisions of¹³²Xe with¹⁹⁷Au, Zeitschrift fur Physik A Hadrons and Nuclei 294 (1980), 323–330.[ bib | DOI | http ]

D. G. Haase, J. O. Sears, and R. A. Orban, Pressure transitions in solid H ₂ below 0.5 K, Solid State Communications 35 (1980), 891–894.[ bib | DOI | http ]

H. Clement, R. N. Boyd, C. R. Gould, and T. B. Clegg, Study of the structure of the low-lying levels of ²⁹Si via the ²⁸Si(fx285-1)d, pγ) reaction and multi-step reaction calculations, Nuclear Physics A 339 (1980), 285–302.[ bib | DOI | http ]

Y. Eyal, A. Gavron, I. Tserruya, et al., Neutron emission in deep-inelastic collisions induced by ⁸⁶Kr on ¹⁶⁶Er at 5.7, 7.0, and 7.9 MeV/nucleon, Phys. Rev. C21 (1980), 1377–1386.[ bib | DOI | http ]

D. G. Haase, R. A. Orban, and J. O. Sears, Pressure measurements of the solid hydrogen quadrupolar glass, Solid State Communications 32 (1979), 1333–1335.[ bib | DOI | http ]

R. Golub, On the storage of neutrons in superfluid ⁴He, Physics Letters A 72 (1979), 387–390.[ bib | DOI | http ]

R. Golub and J. M. Pendlebury, REVIEW: Ultra-cold neutrons, Reports on Progress in Physics 42 (1979), 439–501.[ bib | DOI | http ]

C. R. Gould, N. R. Roberson, S. E. Edwards, M. Jensen, and S. A. Wender, Proposed Computing Facilities for Triangle Universities Nuclear Laboratory, IEEE Transactions on Nuclear Science 26 (1979), 4373–4377.[ bib | DOI | http ]

C. R. Gould, R. Bass, J. V. Czarnecki, et al., Neutron multiplicities in inelastic collisions of¹³²Xe with¹⁹⁷Au, Zeitschrift fur Physik A Hadrons and Nuclei 284 (1978), 353–354.[ bib | DOI | http ]

D. G. Haase, A. Davidescu, G. Kerbaugh, and J. L. Eury, Simple experiment on superheated fluids, American Journal of Physics 46 (1978), 853–854.[ bib | DOI | http ]

P. Ageron, W. Mampe, R. Golub, and J. M. Pendelbury, Measurement of the ultra cold neutron production rate in an external liquid helium source, Physics Letters A 66 (1978), 469–471.[ bib | DOI | http ]

I. Solomon and R. Golub, Climatic Trends, Contemporary Physics 19 (1978), 177.[ bib | DOI | http ]

S. A. Wender, C. R. Gould, D. R. Tilley, D. G. Rickel, and R. W. Zurmühle, Confirmation of 8⁺ assignment to the 11.86 MeV level in ²⁴Mg, Phys. Rev. C17 (1978), 1365–1367.[ bib | DOI | http ]

H. R. Weller, R. A. Blue, P. L. von Behren, et al., Angular distribution measurements for radiative capture of fast neutrons by ⁴⁰Ca, Phys. Rev. C17 (1978), 1260–1262.[ bib | DOI | http ]

R. Herdin, A. Steyerl, A. R. Taylor, J. M. Pendlebury, and R. Golub, Experiment on the efficient polarization of ultracold neutrons, Nuclear Instruments and Methods 148 (1978), 353–357.[ bib | DOI | http ]

W. A. Lanford and R. Golub, Hydrogen Surface Contamination and the Storage of Ultracold Neutrons, Physical Review Letters 39 (1977), 1509–1512.[ bib | DOI | http ]

H. M. Bertin and C. R. Gould, The 555 Timer: Applications Sourcebook With Experiments, American Journal of Physics 45 (1977), 883–883.[ bib | DOI | http ]

R. Golub and J. M. Pendlebury, The interaction of Ultra-Cold Neutrons (UCN) with liquid helium and a superthermal UCN source, Physics Letters A 62 (1977), 337–339.[ bib | DOI | http ]

D. A. Andrews, R. Golub, and G. Newton, Some estimates of the proton charge radius from measurements of the Lamb-shift interval in hydrogen, Journal of Physics G Nuclear Physics 3 (1977), L91–L92.[ bib | DOI | http ]

T. R. Dittrich, C. R. Gould, G. E. Mitchell, E. G. Bilpuch, and K. Stelzer, High resolution proton inelastic scattering from ⁵⁰Cr, Nuclear Physics A 279 (1977), 430–444.[ bib | DOI | http ]

D. G. Haase and H. Meyer, Studies of the dielectric constant in solid H₂,⁴He, and Ne, Journal of Low Temperature Physics 25 (1976), 353–368.[ bib | DOI | http ]

S. A. Wender, C. R. Gould, D. R. Tilley, et al., g factor of the 738 keV state in ⁴³K, Phys. Rev. C14 (1976), 1179–1182.[ bib | DOI | http ]

C. R. Gould, Five-component TTL-compatible square-wave signal generator, American Journal of Physics 44 (1976), 110–110.[ bib | DOI | http ]

D. G. Haase, The dielectric constants of solid helium, hydrogen, deuterium, and neon, Ph.D. thesis, Duke Univ., Durham, NC., December 1975.[ bib | http ]

J. R. Williams, C. R. Gould, R. O. Nelson, et al., A study of the low-lying levels in ⁶¹Ni, Nuclear Physics A 253 (1975), 365–379.[ bib | DOI | http ]

T. R. Dittrich, C. R. Gould, G. E. Mitchell, E. G. Bilpuch, and K. Stelzer, Channel spin mixing ratios in high resolution proton inelastic scattering, Physics Letters B 59 (1975), 230–232.[ bib | DOI | http ]

C. R. Gould and R. L. Ives, Integrated circuit counter for cosmic ray experiments, American Journal of Physics 43 (1975), 918–920.[ bib | DOI | http ]

R. Golub and J. M. Pendlebury, Super-thermal sources of ultra-cold neutrons, Physics Letters A 53 (1975), 133–135.[ bib | DOI | http ]

J. R. Williams, R. O. Nelson, C. R. Gould, and D. R. Tilley, Gamma ray linear polarization measurements for ²⁹Al, Phys. Rev. C 11 (1975), 1111–1116.[ bib | DOI | http ]

R. Golub and J. M. Pendlebury, Method of studying surface properties relevant to ultra-cold neutrons, Physics Letters A 50 (1974), 177–178.[ bib | DOI | http ]

R. O. Nelson, C. R. Gould, D. R. Tilley, and N. R. Roberson, Mean lifetimes of levels in ⁵⁹Cu, Phys. Rev. C9 (1974), 2193–2199.[ bib | DOI | http ]

W. Kessel, R. Bass, E. C. Hagen, et al., Study of excited states of ³⁹Ca and ³⁹K, Nuclear Physics A 223 (1974), 253–267.[ bib | DOI | http ]

R. O. Nelson, C. R. Gould, D. R. Tilley, and N. R. Roberson, Study of low-lying levels of ⁵³Fe, Nuclear Physics A 215 (1973), 541–556.[ bib | DOI | http ]

C. R. Gould, D. R. Tilley, and N. R. Roberson, Mean Lifetimes of Levels in ²⁶Al, Phys. Rev. C8 (1973), 423–423.[ bib | DOI | http ]

J. D. Hutton, N. R. Roberson, C. R. Gould, and D. R. Tilley, A study of low-lying levels in ⁵⁹Ni, Nuclear Physics A 206 (1973), 403–416.[ bib | DOI | http ]

C. R. Gould, D. R. Tilley, and N. R. Roberson, Mean Lifetimes of Levels in ²⁶Al, Phys. Rev. C7 (1973), 1068–1076.[ bib | DOI | http ]

C. R. Gould, R. O. Nelson, J. R. Williams, et al., Application of Polarized Deuterons in (d, pγ) Angular Correlation Measurements, Physical Review Letters 30 (1973), 298–300.[ bib | DOI | http ]

R. Golub and J. M. Pendlebury, The Electric Dipole Moment of the Neutron, Contemporary Physics 13 (1972), 519.[ bib | DOI | http ]

R. Golub, The production of very cold neutrons, Physics Letters A 38 (1972), 177–178.[ bib | DOI | http ]

C. R. Gould, N. R. Roberson, G. E. Mitchell, and D. R. Tilley, Properties of the 2.443- and 3.003-MeV Levels in ⁵⁷Ni, Phys. Rev. C 5 (1972), 281–283.[ bib | DOI | http ]

C. E. Ragan, G. E. Mitchell, D. R. Tilley, C. R. Gould, and N. R. Roberson, Mean Lifetime of the 1.61-MeV Level in ³⁷Ar, Phys. Rev. C 4 (1971), 2294–2294.[ bib | DOI | http ]

C. E. Ragan, G. E. Mitchell, D. R. Tilley, C. R. Gould, and N. R. Roberson, Mean Lifetime of the 1.61-MeV Level in ³⁷Ar, Phys. Rev. C 3 (1971), 2076–2078.[ bib | DOI | http ]

C. E. Ragan, C. R. Gould, N. R. Roberson, G. E. Mitchell, and D. R. Tilley, Study of Low-Lying Levels of ³⁷Ar, Phys. Rev. C3 (1971), 1152–1161.[ bib | DOI | http ]

R. Golub and P. Carter, Magnetic neutron spectrometers for neutrons with wavelengths greater than 40 Å, Nuclear Instruments and Methods 91 (1971), 205–209.[ bib | DOI | http ]

G. P. Lamaze, C. R. Gould, C. E. Moss, N. R. Roberson, and D. R. Tilley, An angular correlation study of the low-lying levels of ²⁹P, Nuclear Physics A 158 (1970), 43–50.[ bib | DOI | http ]

C. E. Ragan, C. E. Moss, C. R. Gould, et al., Mean Lifetime of the 2.94-MeV Level in ³³S, Phys. Rev. C2 (1970), 557–560.[ bib | DOI | http ]

C. R. Gould, E. C. Hagen, R. V. Poore, et al., Lifetimes of Low-Lying Levels in ⁵⁷Ni, Physical Review Letters 25 (1970), 463–466.[ bib | DOI | http ]

D. P. Balamuth, R. W. Zurmühle, G. P. Anastassiou, C. R. Gould, and C. M. Fou, Alpha-Gamma Angular Correlations in the ⁴⁰Ca(³He, αγ)³⁹Ca a Reaction, Phys. Rev. C 1 (1970), 470–475.[ bib | DOI | http ]

R. Golub and H. W. Koch, Foreign subscription rates, Physics Today 23 (1970), 11.[ bib | DOI | http ]

C. R. Gould, D. P. Balamuth, P. F. Hinrichsen, and R. W. Zurmühle, Particle-γ-Ray Angular-Correlation Study of ⁵⁷Ni in the Reaction ⁵⁸Ni(³He,αγ)⁵⁷Ni, Physical Review 188 (1969), 1792–1801.[ bib | DOI | http ]

R. W. Zurmühle, P. F. Hinrichsen, C. M. Fou, C. R. Gould, and G. P. Anastassiou, A particle-gamma ray correlation apparatus, Nuclear Instruments and Methods 71 (1969), 311–316.[ bib | DOI | http ]

R. Golub, J. P. Carrico, T. S. Stein, and M. C. Weisskopf, On the “physical reality of electromagnetic potentials?”, Physics Letters A 25 (1967), 495–496.[ bib | DOI | http ]

R. Golub and G. L. Guttrich, Level shifts due to the confinement of an atom by conducting walls, Physics Letters A 24 (1967), 224–225.[ bib | DOI | http ]

R. Golub, Decelerating Molecules., Ph.D. thesis, MASSACHUSETTS INSTITUTE OF TECHNOLOGY., 1967.[ bib | http ]

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