Thermal processes generated in quark-gluon plasma by yoctosecond laser   pulses

J. Marciak-Kozlowska; M.Kozlowski

arXiv:1107.0467·physics.gen-ph·July 13, 2011

Thermal processes generated in quark-gluon plasma by yoctosecond laser pulses

J. Marciak-Kozlowska, M.Kozlowski

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TL;DR

This paper investigates how yoctosecond laser pulses can generate thermal waves in quark-gluon plasma, revealing that such ultrafast pulses induce thermal processes with velocities proportional to the speed of light.

Contribution

It demonstrates that yoctosecond laser pulses can produce thermal waves in QGP with specific velocities, linking ultrafast laser physics to quark-gluon plasma dynamics.

Findings

01

Thermal waves in QGP can be generated by yoctosecond laser pulses.

02

The thermal wave velocity is approximately 0.3c.

03

Relaxation time in QGP is about 1 yoctosecond.

Abstract

In this paper the thermal processes generated by yoctosecond (10-24 s) laser pulses in QGP are investigated. Considering that the relaxation time in QGP is of the order of 1 ys it is shown that in QGP the yoctosecond laser pulses can generate the thermal waves with velocity v = c (0.3 fm/ys). Key words: QGP, thermal waves, yoctosecond pulses

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · High-pressure geophysics and materials · Atomic and Molecular Physics