Spin Structure of the Pion in a Light-Cone Representation

B.-Q. Ma; Bo-Qiang Ma; C.J. Bedek; E. Wigner; E.B. Dally; Elementary Particle Theory Group, Peking University; F. Coester; G.P. Lepage; G.R. Farrar; H.J. Melosh; J. Ashman; J.D. Bjorken; L.A. Kondratyuk; L.S. Kisslinger; M. Sawicki; M.V. Terent'ev; N. Isgur; N. Isgur; O.C. Jacob; P.L. Chung; P.L. Chung; P.R. Cameron; R.C. Hwa; S. Heppelmann; S.D. Drell; S.D. Drell; S.J. Brodsky; S.R. Amendila; T. Huang; V.A. Karmanov; Z. Dziembowski; Z. Dziembowski

research

Spin Structure of the Pion in a Light-Cone Representation

Authors: B.-Q. Ma
Bo-Qiang Ma
C.J. Bedek
E. Wigner
E.B. Dally
Peking University Elementary Particle Theory Group
F. Coester
G.P. Lepage
G.R. Farrar
H.J. Melosh
J. Ashman
J.D. Bjorken
L.A. Kondratyuk
L.S. Kisslinger
M. Sawicki
M.V. Terent'ev
N. Isgur
N. Isgur
O.C. Jacob
P.L. Chung
P.L. Chung
P.R. Cameron
R.C. Hwa
S. Heppelmann
S.D. Drell
S.D. Drell
S.J. Brodsky
S.R. Amendila
T. Huang
V.A. Karmanov
Z. Dziembowski
Z. Dziembowski
Publication date: 1 January 1993
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

The spin structure of the pion is discussed by transforming the wave function for the pion in the naive quark model into a light-cone representation. It is shown that there are higher helicity (

\lambda_{1}+\lambda_{2}=\pm1

) states in the full light-cone wave function for the pion besides the ordinary helicity (

\lambda_{1}+\lambda_{2}=0

) component wave functions as a consequence from the Melosh rotation relating spin states in light-front dynamics and those in instant-form dynamics. Some low energy properties of the pion, such as the electromagnetic form factor, the charged mean square radius, and the weak decay constant, could be interrelated in this representation with reasonable parameters.Comment: 15 Latex pages, 2 figures upon reques

Similar works

Full text

Available Versions

Crossref

Last time updated on 05/06/2019