Thermal photon measurements at PHENIX

PHENIX Collaboration

Thermal photon measurements at PHENIX

PHENIX Collaboration

Physics and Astronomy

Research output: Contribution to journal › Conference article › peer-review

1 Scopus citations

Abstract

Photons are emitted at all stages of relativistic heavy-ion collisions and do not interact with the medium strongly. With access to the versatility of RHIC, measurements of low momentum direct photons are made possible across different system size and beam energies. An excess of direct photons, above prompt photon production from hard scattering processes, is observed for a system size corresponding to dN_cℎ/dη of 20-30, with a large azimuthal anisotropy and a characteristic dependence on collision centrality. After subtracting the prompt photon component, the inverse slope of the spectrum is continuously increasing with the effective temperature ranging from 250 MeV/c at p_T of 1-2 GeV/c to about 400 MeV/c at 2-4 GeV/c. Within the experimental uncertainty, there is no indication of a system size dependence of the inverse slope. In this proceeding, results from Au+Au collisions from the PHENIX experiment will be presented.

Original language	English
Article number	068
Journal	Proceedings of Science
Volume	438
State	Published - Feb 16 2024
Event	11th International Conference on Hard and Elecctromagnetic Probes of High-Energy Nuclear Collisions, HardProbes 2023 - Aschaffenburg, Germany Duration: Mar 26 2023 → Mar 31 2023

Cite this

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title = "Thermal photon measurements at PHENIX",

abstract = "Photons are emitted at all stages of relativistic heavy-ion collisions and do not interact with the medium strongly. With access to the versatility of RHIC, measurements of low momentum direct photons are made possible across different system size and beam energies. An excess of direct photons, above prompt photon production from hard scattering processes, is observed for a system size corresponding to dNcℎ/dη of 20-30, with a large azimuthal anisotropy and a characteristic dependence on collision centrality. After subtracting the prompt photon component, the inverse slope of the spectrum is continuously increasing with the effective temperature ranging from 250 MeV/c at pT of 1-2 GeV/c to about 400 MeV/c at 2-4 GeV/c. Within the experimental uncertainty, there is no indication of a system size dependence of the inverse slope. In this proceeding, results from Au+Au collisions from the PHENIX experiment will be presented.",

author = "\{PHENIX Collaboration\} and Roli Esha",

note = "Publisher Copyright: {\textcopyright} Copyright owned by the author(s) under the terms of the Creative Commons.; 11th International Conference on Hard and Elecctromagnetic Probes of High-Energy Nuclear Collisions, HardProbes 2023 ; Conference date: 26-03-2023 Through 31-03-2023",

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issn = "1824-8039",

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TY - JOUR

T1 - Thermal photon measurements at PHENIX

AU - PHENIX Collaboration

AU - Esha, Roli

N1 - Publisher Copyright: © Copyright owned by the author(s) under the terms of the Creative Commons.

PY - 2024/2/16

Y1 - 2024/2/16

N2 - Photons are emitted at all stages of relativistic heavy-ion collisions and do not interact with the medium strongly. With access to the versatility of RHIC, measurements of low momentum direct photons are made possible across different system size and beam energies. An excess of direct photons, above prompt photon production from hard scattering processes, is observed for a system size corresponding to dNcℎ/dη of 20-30, with a large azimuthal anisotropy and a characteristic dependence on collision centrality. After subtracting the prompt photon component, the inverse slope of the spectrum is continuously increasing with the effective temperature ranging from 250 MeV/c at pT of 1-2 GeV/c to about 400 MeV/c at 2-4 GeV/c. Within the experimental uncertainty, there is no indication of a system size dependence of the inverse slope. In this proceeding, results from Au+Au collisions from the PHENIX experiment will be presented.

AB - Photons are emitted at all stages of relativistic heavy-ion collisions and do not interact with the medium strongly. With access to the versatility of RHIC, measurements of low momentum direct photons are made possible across different system size and beam energies. An excess of direct photons, above prompt photon production from hard scattering processes, is observed for a system size corresponding to dNcℎ/dη of 20-30, with a large azimuthal anisotropy and a characteristic dependence on collision centrality. After subtracting the prompt photon component, the inverse slope of the spectrum is continuously increasing with the effective temperature ranging from 250 MeV/c at pT of 1-2 GeV/c to about 400 MeV/c at 2-4 GeV/c. Within the experimental uncertainty, there is no indication of a system size dependence of the inverse slope. In this proceeding, results from Au+Au collisions from the PHENIX experiment will be presented.

UR - https://www.scopus.com/pages/publications/85185837883

M3 - Conference article

AN - SCOPUS:85185837883

SN - 1824-8039

VL - 438

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 068

T2 - 11th International Conference on Hard and Elecctromagnetic Probes of High-Energy Nuclear Collisions, HardProbes 2023

Y2 - 26 March 2023 through 31 March 2023

ER -

Thermal photon measurements at PHENIX

Abstract

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