Asymmetry of Strange Sea in Nucleons

A. Manohar; A. Szczurek; A.I. Signal; A.J. Niemi; A.O. Bazarko; A.R. Zhitnitsky; Bo-Qiang Ma; E.J. Eichten; H. Holtmann; H.J. Weber; K. Chetyrkin; M. Burkardt; P. Pal; S. Huber; S. Kumano; S.J. Brodsky; T.P. Cheng; V.R. Zoller; X. Ji; X. Song; X. Song; X. Wang; Xiao-Bing Zhang; Xue-Qian Li

research

Asymmetry of Strange Sea in Nucleons

Authors: A. Manohar
A. Szczurek
A.I. Signal
A.J. Niemi
A.O. Bazarko
A.R. Zhitnitsky
Bo-Qiang Ma
E.J. Eichten
H. Holtmann
H.J. Weber
K. Chetyrkin
M. Burkardt
P. Pal
S. Huber
S. Kumano
S.J. Brodsky
T.P. Cheng
V.R. Zoller
X. Ji
X. Song
X. Song
X. Wang
Xiao-Bing Zhang
Xue-Qian Li
Publication date: 1 January 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Based on the finite-temperature field theory, we evaluate the medium effects in nucleon which can induce an asymmetry between quarks and antiquarks of the strange sea. The short-distance effects determined by the weak interaction can give rise to

\delta m\equiv \Delta m_s-\Delta m_{\bar s}

where

\Delta m_{s(\bar s)}

is the medium-induced mass of strange quark by a few KeV at most, but the long-distance effects by strong interaction are sizable. Our numerical results show that there exists an obvious mass difference between strange and anti-strange quarks, as large as 10-100 MeV.Comment: 15 latex pages, 3 figures, to appear in PR

Similar works

Full text

Available Versions

Crossref

info:doi/10.1103%2Fphysrevd.65...

Last time updated on 02/01/2020