Neutron electromagnetic form factors
作者:
J. M. Finn,
R. Madey,
T. Eden,
P. Markowitz,
P. M. Rutt,
K. Beard,
B. D. Anderson,
A. R. Baldwin,
D. Keane,
D. M. Manley,
J. W. Watson,
W. M. Zhang,
S. Kowalski,
W. Bertozzi,
G. Dodson,
M. Farkhondeh,
K. Dow,
W. Korsch,
D. Tieger,
W. Turchinetz,
L. Weinstein,
F. Gross,
J. Mougey,
P. Ulmer,
R. Whitney,
T. Reichelt,
C. C. Chang,
J. J. Kelly,
T. Payerle,
J. Cameron,
B. Ni,
M. Spraker,
D. Barkhuff,
R. Lourie,
S. Van Verst,
C. Hyde‐Wright,
W. ‐D. Jiang,
B. Flanders,
P. Pella,
H. Arenho¨vel,
期刊:
AIP Conference Proceedings
(AIP Available online 1992)
卷期:
Volume 269,
issue 1
页码: 137-165
ISSN:0094-243X
年代: 1992
DOI:10.1063/1.42992
出版商: AIP
数据来源: AIP
摘要:
Nucleon form factors provide fundamental input for nuclear structure and quark models. Current knowledge of neutron form factors, particularly the electric form factor of the neutron, is insufficient to meet these needs. Developments of high‐duty‐factor accelerators and polarization‐transfer techniques permit new experiments that promise results with small sensitivities to nuclear models. We review the current status of the field, our own work at the MIT/Bates linear accelerator, and future experimental efforts.
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