A
Agnieszka Sorensen
Researcher at University of California, Los Angeles
Publications - 18
Citations - 190
Agnieszka Sorensen is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Nuclear matter & Critical point (thermodynamics). The author has an hindex of 3, co-authored 8 publications receiving 18 citations. Previous affiliations of Agnieszka Sorensen include Lawrence Berkeley National Laboratory.
Papers
More filters
Journal ArticleDOI
The BEST framework for the search for the QCD critical point and the chiral magnetic effect
Xin An,Marcus Bluhm,Lipei Du,Gerald V. Dunne,Hannah Elfner,Charles Gale,Joaquin Grefa,Ulrich Heinz,Anping Huang,Jamie M. Karthein,Dmitri E. Kharzeev,Dmitri E. Kharzeev,Volker Koch,Jinfeng Liao,Shiyong Li,Mauricio Martinez,M. McNelis,Debora Mroczek,Swagata Mukherjee,Marlene Nahrgang,Angel R. Nava Acuna,Jacquelyn Noronha-Hostler,D. Oliinychenko,Paolo Parotto,Israel Portillo,Maneesha Sushama Pradeep,Scott Pratt,Krishna Rajagopal,Claudia Ratti,Gregory W. Ridgway,Thomas Schäfer,Björn Schenke,Chun Shen,Chun Shen,Shuzhe Shi,Mayank Singh,Mayank Singh,Vladimir Skokov,Vladimir Skokov,Dam Thanh Son,Agnieszka Sorensen,Agnieszka Sorensen,Mikhail A. Stephanov,Raju Venugopalan,Volodymyr Vovchenko,Ryan Weller,Ho-Ung Yee,Yi Yin +47 more
TL;DR: The Beam Energy Scan Theory (BEST) Collaboration was formed with the goal of providing a theoretical framework for analyzing data from the BES program at the relativistic heavy ion collider (RHIC) at Brookhaven National Laboratory as mentioned in this paper.
Journal ArticleDOI
Transport model comparison studies of intermediate-energy HI collisions
H. H. Wolter,Maria Colonna,Dan Cozma,Pawel Danielewicz,Che Ming Ko,Rohit Kumar,Akira Ono,M. B. Tsang,Jun Xu,Yingxue Zhang,Elena Bratkovskaya,Zhao-Qing Feng,Theodoros Gaitanos,A. Le Fèvre,N. Ikeno,Youngman Kim,S. Mallik,P. Napolitani,Dmytro Oliinychenko,Tatsuhiko Ogawa,M. Papa,Jun Su,Rui Wang,Yongjia Wang,Janus Weil,Feng-Shou Zhang,Guo-Qiang Zhang,Zhenyu Zhang,J. Aichelin,Wolfgang Cassing,Lie‐Wen Chen,Huimin Cheng,Hannah Elfner,Kai Gallmeister,Ch. Hartnack,Shintaro Hashimoto,Sangyong Jeon,Kyung Kiu Kim,Myungkuk Kim,Bao-An Li,Chang-Hwan Lee,Qingfeng Li,Zhuxia Li,Ulrich Mosel,Yasushi Nara,Koji Niita,Akira Ohnishi,Tatsuhiko Sato,Taesoo Song,Agnieszka Sorensen,Ning Wang,Wen-Jie Xie University of Munich,INFN-LNS,Laboratori Nazionali del Sud,Catania,IFIN-HH Magurele--Bucharest,Facility for Rare Isotope Beams,M. University,Astronomy,C. Institute,Tamu,College Station,T. University,Shanghai Advanced Research Institute,Chinese Academy of Sciences,S. I. O. A. Physics,D. Physics,China China Institute of Atomic Energy,Beijing,G. Physics,Technology,Guilin,Gsi Helmholtzzentrum fur Schwerionenforschung,Darmstadt,Institute for Particle Physics,Goethe University,Frankfurt,S. O. Physics,Optoelectronics,South China University of Technology,Guangzhou,Aristotle University of Thessaloniki,Department of Life,Environmental Sciences,Tottori University,Rare Isotope Science Project,Institute for Computational Science,Daejeon,P. Group,Variable Energy Cyclotron Centre,Kolkata,U. Paris-Saclay,CNRS-IN2P3,Orsay,Frankfurt Institute for Advanced Studies,Division of Environment,Radiation Sciences,Japan Atomic Energy Agency,Tokai,Sino-French Institute of Nuclear Engineering,S. University,Zhuhai,Key Laboratory of Nuclear Physics,Ion-beam Application,I. Physics,Fudan University,Shanghai,School of Materials Science,Huzhou University,J. W. G. University,Key Laboratory of Beam Technology of Ministry of Education,College of Materials Science,Beijing Normal University,Institute of Technology,Beijing Academy of Science,Subatech,Imt Atlantique,In2p3-CNRS-Universite de Nantes-Ecole des Mines de Nantes,I. Physik,U. Giessen,S. L. F. P. Physics,Cosmology,Key Laboratory of Particle Astrophysics,S. University,Research Group for Radiation Protection,M. University,Montréal,Ulsan National Institute of Science,Commerce,Pusan National University,Busan,Lanzhou,Akita International University,Akita,R. I. F. Science,Y. I. F. T. Physics,Kyoto University,Universityof California,Los Angeles,L. Laboratory,Berkeley,G. University +141 more
TL;DR: The Transport Model Evaluation Project (TMEP) as discussed by the authors has been pursued to test the robustness of transport model predictions in reaching consistent conclusions from the same type of physical model, and calculations under controlled conditions of physical input and set-up were performed with various participating codes.
Journal ArticleDOI
Comparison of heavy-ion transport simulations: Mean-field dynamics in a box
Maria Colonna,Ying Xun Zhang,Yong Jia Wang,Dan Cozma,Pawel Danielewicz,Che Ming Ko,Akira Ono,M. B. Tsang,Rui Wang,H. H. Wolter,Jun Xu,Zhen Zhang,Lie-Wen Chen,Hui Gan Cheng,Hannah Elfner,Hannah Elfner,Zhao Qing Feng,M. Kim,Youngman Kim,Sangyong Jeon,Chang-Hwan Lee,Bao-An Li,Qing Feng Li,Zhu Xia Li,S. Mallik,D. Oliinychenko,D. Oliinychenko,Jun Su,Taesoo Song,Taesoo Song,Agnieszka Sorensen,Feng-Shou Zhang +31 more
TL;DR: In this article, the mean-field response of heavy-ion collisions is examined in a transport model evaluation project (TMEP) for zero-sound propagation, and the results of several transport codes belonging to two families (BUU-like and QMD-like) are compared among each other.
Journal ArticleDOI
Phase transitions and critical behavior in hadronic transport with a relativistic density functional equation of state
Agnieszka Sorensen,Volker Koch +1 more
TL;DR: In this article, a relativistically covariant parameterization of dense nuclear matter equation of state is developed for inclusion in computationally demanding hadronic transport simulations, showing that effects due to bulk thermodynamic behavior are reproduced in dynamic hadronic systems.
Long Range Plan: Dense matter theory for heavy-ion collisions and neutron stars
Alessandro Lovato,Travis Dore,Robert D. Pisarski,B. Schenke,K. Chatziioannou,Jocelyn Read,Philippe Landry,Pawel Danielewicz,Dean Lee,Scott Pratt,Fabian Rennecke,Hannah Elfner,Veronica Dexheimer,Rajesh Kumar,Michael Strickland,Johannes Jahan,Claudia Ratti,Volodymyr Vovchenko,Mikhail A. Stephanov,Dekrayat Almaalol,Gordon Baym,Maurício Hippert,Jacquelyn Noronha-Hostler,Jorge Noronha,Enrico Speranza,Nicolás Yunes,Charles Horowitz,Steven P. Harris,Larry McLerran,Sanjay Reddy,Agnieszka Sorensen,Srimoyee Sen,Stefano Gandolfi,Ingo Tews,M. Coleman Miller,Cecilia Chirenti,Zohreh Davoudi,J. Karthein,Krishna Rajagopal,Salvatore Vitale,Joseph I. Kapusta,Gökçe Başar,Thomas Schaefer,Vladimir Skokov,Ulrich Heintz,C. Drischler,Daniel R. Phillips,Madappa Prakash,Zoltan Fodor,David Radice,Christopher Plumberg,Elias R. Most,Carolyn A. Raithel,Eduardo S. Fraga,Aleksi Kurkela,James M. Lattimer,Andrew W. Steiner,Jeremy W. Holt,Bao-An Li,Chun Shen,Mark G. Alford,Alexander Haber,Saori Pastore,M. Piarulli +63 more
TL;DR: The US nuclear community has an opportunity to capitalize on advances in astrophysical observations and nuclear experiments and engage in an interdisciplinary effort in the theory of dense baryonic matter that connects low and high-energy nuclear physics, astrophysics, gravitational waves physics, and data science as discussed by the authors .