Medium effects on charmonium production at ultrarelativistic energies available at the CERN Large Hadron Collider K Zhou, N Xu, Z Xu, P Zhuang
Phys. Rev. C 89 (2014), no.5, 054911, 2014
269 2014 An equation-of-state-meter of quantum chromodynamics transition from deep learning LG Pang, K Zhou, N Su, H Petersen, H Stöcker, XN Wang
Nature communications 9 (2018), no.1, 210, 2018
156 2018 Regressive and generative neural networks for scalar field theory K Zhou, G Endrődi, LG Pang
Phys. Rev. D 100 (2019), 011501(R), 2018
104 2018 Heavy flavors under extreme conditions in high energy nuclear collisions J Zhao, K Zhou, S Chen, P Zhuang
Prog.Part.Nucl.Phys. 114 (2020) 103801, 2020
80 2020 Heavy ions at the Future Circular Collider A Dainese, UA Wiedemann, N Armesto, D d'Enterria, JM Jowett, ...
CERN-TH-2016-107, 2016
79 2016 Identifying the nature of the QCD transition in relativistic collision of heavy nuclei with deep learning YL Du, K Zhou, J Steinheimer, LG Pang, A Motornenko, HS Zong, ...
The European Physical Journal C 80 (2020), 516, 2019
71 2019 A machine learning study to identify spinodal clumping in high energy nuclear collisions J Steinheimer, LG Pang, K Zhou, V Koch, J Randrup, H Stoecker
JHEP 1912 (2019), 122, 2019
58 2019 Thermalization of gluons with Bose-Einstein condensation Zhe Xu, Kai Zhou, Pengfei Zhuang, Carsten Greiner
Phys. Rev. Lett 114 (2015), no.18, 182301, 2015
47 * 2015 ψ^\prime Production and B Decay in Heavy Ion Collisions at LHC Baoyi Chen, Yunpeng Liu, Kai Zhou, Pengfei Zhuang
Phys. Lett. B 726 (4-5), 725–728, 2013
42 * 2013 Unsupervised outlier detection in heavy-ion collisions P Thaprasop, K Zhou, J Steinheimer, C Herold
Physica Scripta 96 (6), 064003, 2021
41 2021 Nonequilibrium photon production in partonic transport simulations M Greif, F Senzel, H Kremer, K Zhou, C Greiner, Z Xu
Phys. Rev. C 95 (2017), no.5, 054903, 2016
41 2016 Thermal Charm and Charmonium Production in Quark Gluon Plasma Kai Zhou, Zhengyu Chen, Carsten Greiner, Pengfei Zhuang
Phys. Lett. B 758 (2016), 434-439, 2016
37 2016 A fast centrality-meter for heavy-ion collisions at the CBM experiment MO Kuttan, J Steinheimer, K Zhou, A Redelbach, H Stoecker
Physics Letters B 811, 135872, 2020
35 2020 Heavy quark potential in the quark-gluon plasma: Deep neural network meets lattice quantum chromodynamics S Shi, K Zhou, J Zhao, S Mukherjee, P Zhuang
Physical Review D 105 (1), 014017, 2022
33 2022 Deep learning stochastic processes with QCD phase transition LJ Jiang, LX Wang, K Zhou
Phys. Rev. D 103, 116023, 2021
31 2021 Nature Commun. 9, 210 (2018) LG Pang, K Zhou, N Su, H Petersen, H Stöcker, XN Wang
arXiv preprint arXiv:1612.04262, 2016
31 2016 Glueballs amass at RHIC and LHC Colliders! - The early quarkless 1st order phase transition at Horst Stoecker, Kai Zhou, et al.
J.Phys. G 2016 (43), 015105, 2015
31 * 2015 Υ Production in Heavy Ion Collisions at LHC K Zhou, N Xu, P Zhuang
Nuclear Physics A 931, 654–658, 2014
30 2014 Neural network reconstruction of the dense matter equation of state from neutron star observables S Soma, L Wang, S Shi, H Stoecker, K Zhou
Journal of Cosmology and Astroparticle Physics 8 (2022), 071, 2022
28 2022 Continuum-extrapolated NNLO Valence PDF of Pion at the Physical Point X Gao, A D. Hanlon, N Karthik, S Mukherjee, P Petreczky, P Scior, S Shi, ...
Physics Review D 106 (114510), 2022
25 2022 
Horst StoeckerFiAS & ITP Johann Wolfgang Goethe Universitaet Frankfurt am Main and GSI Helmholtzzentrum fuerEmail verificata su uni-frankfurt.de
