Prof. Robert Golub
North Carolina State University, USA
Professor
Email: rgolub@ncsu.edu
Qualifications
1968 Ph.D., Massachusetts
Institute of Technology
1961 M.Sc., Massachusetts
Institute of Technology
1959 B.S., The City College
Publications (Selected)
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MJ Bales, P
Fierlinger, R Golub, Non-extensive statistics in spin precession. EPL, 116 (4),
(2017), 43002.
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C. M. Swank,
A. K. Petukhov, R. Golub, Random walks with thermalizing collisions in bounded
regions: Physical applications valid from the ballistic to diffusive regimes. Physical
Review. A, 93, (2016), 062703.
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O. Zimmer, R.
Golub, Ultracold neutron accumulation in a superfluid-helium converter with magnetic
multipole reflector. Physical Review. C, 92, (2015), 015501.
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M. Guigue, G.
Pignol, R. Golub, A. K. Petukhov, Universality of spin relaxation for spin-1/2
particles diffusing over magnetic-field inhomogeneities in the adiabatic regime.
Physical Review. A, 90, (2014), 013407.
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C. M. Swank,
A. K. Petukhov, R. Golub, Correlation functions for restricted Brownian motion
from the ballistic through to the diffusive regimes. Physical Letters. A, 376,
(2012), 2319-2324.
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R. Golub, R.
M. Rohm, C. M. Swank, Reexamination of relaxation of spins due to a magnetic
field gradient: Identity of the Redfield and Torrey theories. Physical Review.
A, 83, (2011), 023402.
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S. K.
Lamoreaux and R. Golub, Experimental searches for the neutron electirc dipole
moment. Journal of Physics G, Nuc. Part. Phys, 36, (2009), 104022.
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Korobkina, E.;
Wehring, B.W.; Hawari, A.I.; Young, A.R.; Huffman, P.R.; Golub, R.; Xu, Y.;
Palmquist, G., Ultracold neutron source at the NC State University PULSTAR
reactor. Nuclear Inst. and Methods in Physics Research, A, 579, (2007), 530-3.
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Barabanov,
A.L.; Golub, R.; Lamoreaux, S.K., Electric dipole moment searches: effect of
linear electric field frequency shifts induced in confined gases. Physical
Review A (Atomic, Molecular, and Optical Physics), 74, (2006), 52115-1-11.
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Lamoreaux,
S.K.; Golub, R., 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. Physical Review A (Atomic,
Molecular, and Optical Physics), 71, (2005), 32104-1-10.
Profile Details
https://physics.sciences.ncsu.edu/people/rgolub/