Determination of the pion charge form factor at Q2=1.60 and 2.45 (GeV/c)2

Authors :: T, Horn
K, Aniol
J, Arrington
B, Barrett
E J, Beise
H P, Blok
W, Boeglin
E J, Brash
H, Breuer
C C, Chang
M E, Christy
R, Ent
D, Gaskell
E, Gibson
R J, Holt
G M, Huber
S, Jin
M K, Jones
C E, Keppel
W, Kim
P M, King
V, Kovaltchouk
J, Liu
G J, Lolos
D J, Mack
D J, Margaziotis
P, Markowitz
A, Matsumura
D, Meekins
T, Miyoshi
H, Mkrtchyan
I, Niculescu
Y, Okayasu
L, Pentchev
C, Perdrisat
D, Potterveld
V, Punjabi
P, Reimer
J, Reinhold
J, Roche
P G, Roos
A, Sarty
G R, Smith
V, Tadevosyan
L G, Tang
V, Tvaskis
S, Vidakovic
J, Volmer
W, Vulcan
G, Warren
S A, Wood
C, Xu
X, Zheng
Source :: Physical review letters. 97(19)
Publication Year :: 2006
Abstract: The 1H(e,e'pi+)n cross section was measured at four-momentum transfers of Q2=1.60 and 2.45 GeV2 at an invariant mass of the photon nucleon system of W=2.22 GeV. The charged pion form factor (F(pi)) was extracted from the data by comparing the separated longitudinal pion electroproduction cross section to a Regge model prediction in which F(pi) is a free parameter. The results indicate that the pion form factor deviates from the charge-radius constrained monopole form at these values of Q2 by one sigma, but is still far from its perturbative quantum chromodynamics prediction.

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