Joseph I Kapusta

Professor, College of Science & Engineering, Physics and Astronomy

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Projects 1987 2019

1 Finished
1 Active

Research in Theoretical Nuclear Physics

Kapusta, J. I.

United States Department of Energy

1/1/87 → 1/31/19

Project: Research project

nuclear physics

Research in Theoretical Nuclear Physics

Kapusta, J. I. & Qian, Y.

United States Department of Energy

2/1/17 → 2/1/17

Project: Research project

nuclear physics

Research Output 1976 2018

197 Article
5 Conference article
4 Comment/debate
4 Review article
5 More
- 3 Conference contribution
- 2 Letter

5 Citations

Causal electric charge diffusion and balance functions in relativistic heavy-ion collisions

Kapusta, J. I. & Plumberg, C. J., Jan 22 2018, In : Physical Review C. 97, 1, 014906.

Research output: Contribution to journal › Article

electric charge

ionic collisions

propagation

electric current

hadrons

Dynamical AdS/Yang-Mills model

Bartz, S. P., Dhumuntarao, A. & Kapusta, J. I., Jul 15 2018, In : Physical Review D. 98, 2, 026019.

Research output: Contribution to journal › Article

gauge theory

scalars

Yang-Mills theory

mass spectra

broken symmetry

1 Citations

Achieving high baryon densities in the fragmentation regions in heavy ion collisions at top RHIC energy

Li, M. & Kapusta, J. I., Apr 25 2017, In : Journal of Physics: Conference Series. 832, 1, 012058.

Research output: Contribution to journal › Conference article

ionic collisions

baryons

fragmentation

energy

kinetic energy

1 Citations

Departure from equilibrium of the quasiparticle distribution functions in high-energy nuclear collisions

Chakraborty, P. & Kapusta, J. I., Jan 19 2017, In : Physical Review C. 95, 1, 014907.

Research output: Contribution to journal › Article

nuclear energy

distribution functions

collisions

shear

approximation

1 Citations

High baryon densities achievable in the fragmentation regions at RHIC and LHC

Kapusta, J. I. & Li, M., Feb 8 2017, In : Journal of Physics: Conference Series. 779, 1, 012077.

Research output: Contribution to journal › Conference article

baryons

fragmentation

nuclei

critical point

flux density