Study reveals uneven radiation emission among jets in quark-gluon plasma

Study reveals uneven radiation emission among jets in quark-gluon plasma

Studying nuclear matter ⁤under extreme ​conditions allows⁣ scientists to better understand how the universe ⁢might have looked ⁤right after its creation. ⁤Scientists at the Large Hadron Collider ⁤achieve the conditions for​ recreating mini-Big Bangs in the lab by ‍colliding nuclei at‍ speeds close to that of light. ⁤These collisions create temperatures about‌ one million ⁢times hotter than⁤ the sun’s center.

Researchers have⁢ long ⁤struggled to ⁣understand the mechanisms through which energetic⁤ quarks and gluons, which split into⁣ prongs‍ and form jets, interact with the QGP. One ‌method to understand ⁢jet energy⁢ loss is known as ‌the “decoherence⁣ approach.”

This method leads researchers to expect that a​ wide jet​ with two prongs, each of ⁣which may act as a ⁢separate emitter of‍ radiation, will lose more energy than a ‍narrow jet, which acts as⁢ a single source of radiation.

In a study published in the journal Physical Review C, researchers measured⁤ the energy‌ loss ⁢of jets with narrow and wide structures in⁣ the ​QGP. The results confirm for ⁢the first time that⁤ the plasma treats each prong of ⁣a jet independently⁣ only when ‌the prongs are separated by a​ critical angle that is large enough for the QGP to ⁤interact with⁤ the jets as independent⁣ entities.

For the first time, researchers have measured the ⁢energy loss experienced by⁢ jets traversing the QGP as a ​function ⁣of its substructure using collision data collected by ATLAS, the largest general-purpose‍ particle detector experiment at the⁢ Large Hadron Collider.

2023-12-07⁤ 11:41:02
Original from phys.org rnrn

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