3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory
Schlichting S, Singh P (2021)
Physical Review D 103(1): 014003.
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Abstract / Bemerkung
We simulate the 3+1 D classical Yang-Mills dynamics of the collisions of longitudinally extended nuclei, described by eikonal color charges in the Color Glass Condensate framework. By varying the longitudinal thickness of the colliding nuclei, we discuss the violations of boost invariance and explore how the boost invariant high-energy limit is approached. Subsequently, we develop a more realistic model of the three dimensional color charge distributions that connects longitudinal and transverse fluctuations to the xxx and k⊥k_\botk⊥ dependence of transverse momentum dependent parton distributions, and explore the resulting rapidity profiles and their longitudinal fluctuations.
Erscheinungsjahr
2021
Zeitschriftentitel
Physical Review D
Band
103
Ausgabe
1
Art.-Nr.
014003
ISSN
2470-0010
eISSN
2470-0029
Page URI
https://pub.uni-bielefeld.de/record/2949833
Zitieren
Schlichting S, Singh P. 3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory. Physical Review D. 2021;103(1): 014003.
Schlichting, S., & Singh, P. (2021). 3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory. Physical Review D, 103(1), 014003. doi:10.1103/PhysRevD.103.014003
Schlichting, Sören, and Singh, Pragya. 2021. “3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory”. Physical Review D 103 (1): 014003.
Schlichting, S., and Singh, P. (2021). 3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory. Physical Review D 103:014003.
Schlichting, S., & Singh, P., 2021. 3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory. Physical Review D, 103(1): 014003.
S. Schlichting and P. Singh, “3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory”, Physical Review D, vol. 103, 2021, : 014003.
Schlichting, S., Singh, P.: 3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory. Physical Review D. 103, : 014003 (2021).
Schlichting, Sören, and Singh, Pragya. “3-D structure of the Glasma initial state: Breaking boost-invariance by collisions of extended shock waves in classical Yang-Mills theory”. Physical Review D 103.1 (2021): 014003.
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Schlichting S, Singh P (2021)
Bielefeld University.
Schlichting S, Singh P (2021)
Bielefeld University.
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arXiv: 2010.11172
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