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Axial-tensor meson family at T≠0

Title	Axial-tensor meson family at T≠0
Author	Süngü, J. Y., Türkan, Arzu, Sertbakan, E., Veliev, E. V.
Publication Date:	2020-10-12
Publication Place	- Springer Nature
Type	Periodical
Language	English
Digital	Yes
Manuscript	No
Library:	Özyeğin University
Library Asset ID	1434-6044
Record ID	526936f2-271d-4103-8f17-2632a2faa3dd
Library Location	Natural and Mathematical Sciences
Date	2020-10-12
Sample Text	The mass and decay constants of rho(2), omega(2) and a missing member in the 2(--) nonet along with their first excited states are analyzed by the Thermal QCD sum rules approach, including QCD condensates up to dimension five. Mass and decay constant values of these mesons are stable from T = 0 up to T congruent to 120 MeV. However, after this threshold point, our numerical analyses indicates that they begin to diminish with increasing temperature. When we compare the hadronic parameters with their vacuum values, masses of these mesons and their first excited states decrease between (1-13%) from the PDG data and (10-26%) for the decay constants. However they diminish in the interval of (9-26%) and (2-34%) respectively with regards to Regge Trajectory Model data. We expect our numerical results will be confirmed by future heavy-ion collision experiments.
DOI	10.1140/epjc/s10052-020-08439-0
Cilt	80

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Özyeğin University

Axial-tensor meson family at T≠0

Author Süngü, J. Y., Türkan, Arzu, Sertbakan, E., Veliev, E. V.

Publication Date 2020-10-12

Publication Place - Springer Nature

Type Periodical

Language English

Digital Yes

Manuscript No

Library Özyeğin University

Library Asset ID 1434-6044

Record ID 526936f2-271d-4103-8f17-2632a2faa3dd

Library Location Natural and Mathematical Sciences

Date 2020-10-12

Sample Text The mass and decay constants of rho(2), omega(2) and a missing member in the 2(--) nonet along with their first excited states are analyzed by the Thermal QCD sum rules approach, including QCD condensates up to dimension five. Mass and decay constant values of these mesons are stable from T = 0 up to T congruent to 120 MeV. However, after this threshold point, our numerical analyses indicates that they begin to diminish with increasing temperature. When we compare the hadronic parameters with their vacuum values, masses of these mesons and their first excited states decrease between (1-13%) from the PDG data and (10-26%) for the decay constants. However they diminish in the interval of (9-26%) and (2-34%) respectively with regards to Regge Trajectory Model data. We expect our numerical results will be confirmed by future heavy-ion collision experiments.

DOI 10.1140/epjc/s10052-020-08439-0

Cilt 80