513 K
16 pp.
 
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TitleDetermination of the Neutron Magnetic Moment
Author(s)Greene, G. L.; Ramsey, N. F.; Mampe, W.; Pendlebury, J. M.; Smith, K. ; Dress, W. B.; Miller, P. D.; Perrin, P.
Publication DateJune 1981
Report NumberCONF-810695-1
Unique IdentifierACC0283
Other NumbersLegacy ID: DE81024116; OSTI ID: 6190868
Research OrgOak Ridge National Laboratory, TN (USA); Harvard University, Cambridge, MA (USA); Institut Max von Laue - Paul Langevin, 38 - Grenoble (France); Sussex University, Brighton (UK). Astronomy Centre
Contract NoW-7405-ENG-26
Sponsoring OrgU.S. Department of Energy (DOE)
Other Information2nd International Conference on Precision Measurements and Fundamental Constants; Jun 1981; Gaithersburg, MD, USA
Subject651100 -- Nuclear Physics -- Experimental Techniques -- (1980-); 651214 -- Nuclear Properties & Reactions, A=1-5, Theoretical -- Moments and Spin -- (-1987); Magnetic Moments -- Measuring Methods; Neutrons -- Magnetic Moments; Protons -- Magnetic Moments; Experimental Data; Magnetic Resonance; Ultracold Neutrons
KeywordsBaryons; Cold Neutrons; Data; Elementary Particles; Fermions; Hadrons; Information; Neutrons; Nucleons; Numerical Data; Resonance; Nuclear Physics and Radiation Physics
Related Web PagesNorman Ramsey and the Separated Oscillatory Fields Method
AbstractThe neutron magnetic moment has been measured with an improvement of a factor of 100 over the previous best measurement. Using a magnetic resonance spectrometer of the separated oscillatory field type capable of determining a resonance signal for both neutrons and protons (in flowing H{sub 2}O), we find ..mu..{sub n}/..mu..{sub p} = 0.68497935(17) (0.25 ppM). The neutron magnetic moment can also be expressed without loss of accuracy in a variety of other units.
513 K
16 pp.
 
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