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Measurement of the 3He spin-structure functions and of neutron (3He) spin-dependent sum rules at 0.035 ≤ Q2 ≤ 0.24 GeV2

Authors :
V. Sulkosky
J.T. Singh
C. Peng
J.-P. Chen
A. Deur
S. Abrahamyan
K.A. Aniol
D.S. Armstrong
T. Averett
S.L. Bailey
A. Beck
P. Bertin
F. Butaru
W. Boeglin
A. Camsonne
G.D. Cates
C.C. Chang
Seonho Choi
E. Chudakov
L. Coman
J.C. Cornejo
B. Craver
F. Cusanno
R. De Leo
C.W. de Jager
J.D. Denton
S. Dhamija
R. Feuerbach
J.M. Finn
S. Frullani
K. Fuoti
H. Gao
F. Garibaldi
O. Gayou
R. Gilman
A. Glamazdin
C. Glashausser
J. Gomez
J.-O. Hansen
D. Hayes
B. Hersman
D.W. Higinbotham
T. Holmstrom
T.B. Humensky
C.E. Hyde
H. Ibrahim
M. Iodice
X. Jiang
L.J. Kaufman
A. Kelleher
K.E. Keister
W. Kim
A. Kolarkar
N. Kolb
W. Korsch
K. Kramer
G. Kumbartzki
L. Lagamba
V. Lainé
G. Laveissiere
J.J. Lerose
D. Lhuillier
R. Lindgren
N. Liyanage
H.-J. Lu
B. Ma
D.J. Margaziotis
P. Markowitz
K. McCormick
M. Meziane
Z.-E. Meziani
R. Michaels
B. Moffit
P. Monaghan
S. Nanda
J. Niedziela
M. Niskin
R. Pandolfi
K.D. Paschke
M. Potokar
A.J.R. Puckett
V.A. Punjabi
Y. Qiang
R. Ransome
B. Reitz
R. Roché
A. Saha
A. Shabetai
S. Širca
K. Slifer
R. Snyder
P. Solvignon
R. Stringer
R. Subedi
W.A. Tobias
N. Ton
P.E. Ulmer
G.M. Urciuoli
A. Vacheret
E. Voutier
K. Wang
L. Wan
B. Wojtsekhowski
S. Woo
H. Yao
J. Yuan
X. Zhan
X. Zheng
L. Zhu
Source :
Physics Letters B, Vol 805, Iss , Pp - (2020)
Publication Year :
2020
Publisher :
Elsevier, 2020.

Abstract

The spin-structure functions g1 and g2, and the spin-dependent partial cross-section σTT have been extracted from the polarized cross-sections differences, Δσ∥(ν,Q2) and Δσ⊥(ν,Q2) measured for the He3→(e→,e′)X reaction, in the E97-110 experiment at Jefferson Lab. Polarized electrons with energies from 1.147 to 4.404 GeV were scattered at angles of 6∘ and 9∘ from a longitudinally or transversely polarized 3He target. The data cover the kinematic regions of the quasi-elastic, resonance production and beyond. From the extracted spin-structure functions, the first moments Γ1‾(Q2), Γ2(Q2) and ITT(Q2) are evaluated with high precision for the neutron in the Q2 range from 0.035 to 0.24GeV2. The comparison of the data and the chiral effective field theory predictions reveals the importance of proper treatment of the Δ degree of freedom for spin observables.

Subjects

Subjects :
Physics
QC1-999

Details

Language :
English
ISSN :
03702693
Volume :
805
Issue :
-
Database :
Directory of Open Access Journals
Journal :
Physics Letters B
Publication Type :
Academic Journal
Accession number :
edsdoj.91a8e1bb0a03459fb2e54e080848547a
Document Type :
article
Full Text :
https://doi.org/10.1016/j.physletb.2020.135428