Radiative energy loss of high energy quarks in finite-size nuclear matter and quark-gluon plasma

B. G. Zakharov

Radiative energy loss of high energy quarks in finite-size nuclear matter and quark-gluon plasma

B. G. Zakharov

Abstract

The induced gluon radiation of a high energy quark in a finite-size QCD medium is studied. For a sufficiently energetic quark produced inside a medium we find the radiative energy loss $ΔE_{q}\propto L^{2}$, where L is the distance passed by quark in the medium. It has a weak dependence on the initial quark energy $E_{q}$. The $L^{2}$ dependence turns to $L^{1}$ as the quark energy decreases. Numerical calculations are performed for a cold nuclear matter and a hot quark-gluon plasma. For a quark incident on a nucleus we predict $ΔE_{q}\approx 0.1 E_{q}(L/10 fm)^β$, with $β$ close to unity.

Radiative energy loss of high energy quarks in finite-size nuclear matter and quark-gluon plasma

Abstract

The induced gluon radiation of a high energy quark in a finite-size QCD medium is studied. For a sufficiently energetic quark produced inside a medium we find the radiative energy loss

, where L is the distance passed by quark in the medium. It has a weak dependence on the initial quark energy

. The

dependence turns to

as the quark energy decreases. Numerical calculations are performed for a cold nuclear matter and a hot quark-gluon plasma. For a quark incident on a nucleus we predict

, with

close to unity.

Radiative energy loss of high energy quarks in finite-size nuclear matter and quark-gluon plasma

Abstract

Radiative energy loss of high energy quarks in finite-size nuclear matter and quark-gluon plasma

Abstract

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