Biography

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)

  1. MJ Bales, P Fierlinger, R Golub, Non-extensive statistics in spin precession. EPL, 116 (4), (2017), 43002.
  2. 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.
  3. O. Zimmer, R. Golub, Ultracold neutron accumulation in a superfluid-helium converter with magnetic multipole reflector. Physical Review. C, 92, (2015), 015501.
  4. 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.
  5. 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.
  6. 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.
  7. S. K. Lamoreaux and R. Golub, Experimental searches for the neutron electirc dipole moment. Journal of Physics G, Nuc. Part. Phys, 36, (2009), 104022.
  8. 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.
  9. 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.
  10. 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/

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