Moving doubly heavy baryon in a strongly coupled plasma from holography

Abstract

Gauge/gravity duality is used to study properties of the doubly heavy baryon (QQq) at finite rapidity and temperature in the heavy-ion collision. We investigate the impact of rapidity on string breaking and screening of QQq, and compare these effects with the results for QQ in detail. Computations reveal that the string-breaking distances of QQq and QQ are close in the confined state and the effects of rapidity and temperature on the string breaking are not significant. An interesting result shows that QQq cannot be found at high enough temperatures and rapidities; however, QQ can exist under any conditions as long as the separation distance is small enough. Besides, the screening distances of QQq and QQ are also compared at finite rapidity and temperature. Based on the above analysis, we infer that QQ is more stable than QQq at finite rapidity and temperature.

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