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郑华(Hua Zheng)
职称/职务: 研究员
电话:
传真:
电子信箱: zhengh@snnu.edu.cn
出生年月:
办公地点: 致知楼3544

教育及科研工作经历:

2018.06-现在       bwin必赢国际官网APP,bwin必赢国际官网APP,研究员

2017.082018.04  意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),博士后

2017.072017.07  意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),访问学者

2017.042017.06  意大利卡塔尼亚大学(Universita degli Studi di Catania),物理与天文学院,科研学者

2017.022017.03  意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),访问学者

2015.022017.02  意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),博士后

 

2009.092014.12  美国德州农工大学(Texas A&M University),博士(导师:Aldo Bonasera教授)

2008.092009.08  华中师范大学,粒子物理研究所,博士研究生(导师:杨纯斌教授)

2006.092008.06  华中师范大学,粒子物理研究所,硕士(导师:杨纯斌教授)

2002.092006.06  华中师范大学,物理科学与技术学院,学士  

 

教授课程:

《高等量子力学》, 18-24):18-24

《高等量子力学》, 19 ):16

分析力学》, 19-24):18-23物创

量子力学》, 20&22&23&24春):17&19&20&21

 

指导学生情况

毕业研究生:王蒙,陶俊琦,吴伟豪,周敏,孙淑婷,达珂,刘玥

在读研究生:何红斌,秦之迎,谢浈,曹健,郭曦瑶

 

学论文

[1] 电子自旋是角动量的讨论,程剑剑,郑华*《大学物理》3810282019.

[2] 基于变分法求解氢原子的径向波函数和能级,卢欣,郑华*《大学物理》381162 2019.

[3] 一种新的Glauber公式的证明方法陶俊琦,王蒙,程剑剑,郑华*《物理与工程》,311252021.

[4] 物理学中常用的高斯与类高斯型积分, 王蒙,陶俊琦,程剑剑,郑华*《大学物理》,40513, 2021.

[5] 关于一道狄利克雷边界条件下电势计算题的思考,胡梦蓉,勾翰,邓永菊*郑华《物理通报》41328, 2022.

[6] 分析力学中有心力场天体运动, 何红斌,郑华*,张文超,朱励霖, 《广西物理》 432), 1582022.

[7] 探究耦合双摆系统测度同步的影响因素,裴文杰,王新刚,郑华*《大学物理》424512023.

[8] 物理学中的“降维打击”,郑华*,王新刚,朱励霖,《物理与工程》333462023.

[9] 计算机模拟辅助教学在分析力学中的应用,何红斌,郑华*,张文超,王新刚,朱励霖,《大学物理》435332024.

[10] 傅科摆的教学实践,杨晓彤,郑华*《广西物理》451),182024.

[11] “三生万物”规律生--趣谈“三”妙之处,郑华*,王新刚,朱励霖,《大学物理》接收,2024.

[12] 一维谐振子坐标表象与动量表象的等价性,纪怀昱,张子骏,郑华*,孙辉,《物理与工程》接收,2024.

[13] 分析力学助力逆向思维培养,郑华*,张文超,王新刚,朱励霖,包小军,《广西物理》接收,2024.

 

English CV (Last updated Sep 1st, 2024)

Education

2002.09-2006.06, B.S. in Physics Education, Huazhong Normal University, China

2006.09-2008.06, M.S. in Theoretical Physics, Institute of  Particle Physics, Huazhong Normal University, China

2008.09-2009.08, Ph.D in Theoretical Physics, Institute of  Particle Physics, Huazhong Normal University, China

2009.09-2014.12, Ph.D in Nuclear Physics, Cyclotron Institute, Texas A&M University, USA

Master thesis

Title: The particle distribution and production mechanism in high energy collisions

Supervisor: Prof. C. B. Yang, Email: cbyang@mail.ccnu.edu.cn

Ph.D thesis

Title: Density and temperature in quantum nuclear systems

Supervisor: Prof. A. Bonasera, Email: abonasera@comp.tamu.edu

 

Employment

2015.02-2017.02, Postdoc at Laboratori Nazionale del Sud, Istituto Nazionale di Fisica Nucleare (INFN), Catania, Italy

Research supervisorProf. M. Colonna, Email: colonna@lns.infn.it

2017.04-2017.06, Research Scholar at Dipartmento di Fisica e Astronomia, Universita degli Studi di Catania, Catania, Italy

Research supervisor: Prof. V. Greco, Email: greco@lns.infn.it

2017.08-2018.04, Postdoc at Laboratori Nazionale del Sud, Istituto Nazionale di Fisica Nucleare (INFN), Catania, Italy

Research supervisorProf. M. Colonna, Email: colonna@lns.infn.it

2018.06-present, Senior Scientist at School of Physics and Information Technology, Shaanxi Normal University, Xian, China

 

Teaching

Quantum mechanics for undergraduate

Analytical mechanics for undergradate

Advanced quantum mechanics for graduate

 

List of Publications(* Corresponding author, since 2019)

[53] A.G. Magner*, S.P. Maydanyuk, A. Bonasera, H. Zheng, T. Depastas, A.I. Levon, U.V. Grygoriev, Neutron stars as dense liquid drop at equilibrium within the effective surface approximation, accepted by IJMPE (2024).

[52] X. Zhang, X. Liu*, H. Zheng, W. Lin, R. Wada, J. Han, C.W. Ma, C.Y. Qiao, D. Peng, Y. Huang, Q.Leng, G. Qu, P. Ren and Z. Yang, A novel Bayesian neural network approach for nuclear root-mean-square charge radii, accepted by IEEE Transactions on Nuclear Science (2024).

[51] Z. Xie, J.X. Li, H. Zheng*, W.C. Zhang, L.L. Zhu, X.Q. Liu, Z.G. Tan, D.M. Zhou, A. Bonasera, The study of midrapidity average transverse momentum of identified charged particles in high-energy heavy-ion collisions, accepted by Acta Physica Sinica (2024). (in Chinese)

[50] Z.G. Tan*, S.J. Wang, Y.N. Guo, H. Zheng*, A. Bonasera, A novel encoding mechanism for particle physics,  Nucl. Sci. Tech. 35, 144 (2024). (Cover story)

[49] Zhi-Lei She*, An-Ke Lei, Yu-Liang Yan, Dai-Mei Zhou*, Wen-Chao Zhang, Hua Zheng, Liang Zheng, Yi-Long Xie, Gang Chen, and Ben-Hao Sa*, Identifying an X(3872) tetraquark state versus a molecular state by formation time, velocity, and temperature in relativistic nuclear collisions,  Phys. Rev. C 110014910 (2024).

[48] X. Zhang, H.B. He, G. Qu, X.Q. Liu*, H. Zheng*, W. Lin, J. Han, P. Ren, R. Wada, Investigation of the difference in charge radii of mirror pairs with deep Bayesian neural networks, Phys. Rev. C 110014316 (2024).

[47]Jun Xu*, Hermann Wolter, Maria Colonna, Mircea Dan Cozma, Pawel Danielewicz, Che Ming Ko, Akira Ono, ManYee Betty Tsang, Ying-Xun Zhang, Hui-Gan Cheng, Natsumi Ikeno, Rohit Kumar, Jun Su, Hua Zheng, Zhen Zhang, Lie-Wen Chen, Zhao-Qing Feng, Christoph Hartnack, Arnaud Le Fèvre, Bao-An Li, Yasushi Nara, Akira Ohnishi, and Feng-Shou Zhang, Comparing pion production in transport simulations of heavy-ion collisions at 270A MeV under controlled conditions, Phys. Rev. C 109044609 (2024).

[46] J.Q. Tao, H.B. He, H. Zheng*, W.C. Zhang, X.Q. Liu, L.L. Zhu, A. Bonasera, Pseudorapidity distributions of charged particles in asymmetric collisions using Tsallis thermodynamics, Nucl. Sci. Tech. 34, 172 (2023).

[45] W.H. Wu, J.Q. Tao, H. Zheng*, W.C. Zhang, X.Q. Liu, L.L. Zhu, A. Bonasera, Thermodynamic properties at kinetic freeze-out in Au+Au and Cu+Cu collisions at RHIC using the Tsallis distribution, Nucl. Sci. Tech. 34, 151 (2023).

[44] Q. Hu*, G.Y. Tian, R. Wada*, X.Q. Liu, W.P. Lin, H. Zheng, Y.P. Zhang, Z.Q. Chen, R. Han, M.R. Huang, Semirelativistic antisymmetrized molecular dynamics for the production of energetic neutrons in intermediate-energy heavy-ion reactions, Phys. Rev. C 108054907 (2023).

[43] T. Depastas*, S.T. Sun, H. Zheng, A. Bonasera, α-cluster microscopic study of 12C + 12C fusion toward the zero energy limit, Phys. Rev. C 108, 035806 (2023).

[42] L.L. Zhu, H. Zheng*, K. Da, H.J. Gong, Z.Z. Ye, G.Q. Liu, R. Hwa, Universal energy dependence of measured temperatures for baryons produced in heavy-ion collisions, Phys. Rev. C 107064907 (2023).

[41] G. Tian, Z. Chen*, R. Wada*, X. Liu, W. Lin, M. Huang, H. Zheng, Q. Hu, R. Han, F. Shi, X. Zhang, B. Liu and H. Sun, Reaction dynamics and in-medium nucleon-nucleon cross section with 12C+1H at 95 MeV/nucleon, Phys. Rev. C 107044602 (2023).

[40] T. Settlemyre*, H. Zheng, A. Bonasera,   Pair production as a probe for the dynamics of nuclear fission and alpha decay, Phys. Rev. C 107L031301 (2023).

[39] Q.Z. Leng, Y. Huang, X. Zhang,  X.Q. Liu*, R. Wada, W.P. Lin, H. Zheng,  J.S. Wang, Z.Q. Chen, M.R. Huang, P.P. Ren, G.F. Qu, J.F. Han, Z.L. Yang, G.Y. Tian, R. Han, Q. Hu, Study of transverse flow dependence on incident energy in heavy-ion collisions near the Fermi energy based on two-particle azimuthal correlation approach, Nucl. Phys. Rev. 40, 10-16 (2023) . (in chinese)

[38] G. Qu, Y. Huang, H. Zheng, X. Liu*, R. Wada, W. Lin, M. Huang, J. Han, P. Ren, Z. Yang, X. Zhang, Q. Leng, Determining nuclear temperature dependence on source neutron-proton asymmetry in heavy-ion reactions at intermediate energy,  Chin. Phys. C 47, 054002 (2023).

[37] T. Settlemyre, H. Zheng*, A. Bonasera, Collective Dynamical pair production at sub-barrier energies for light nuclei, Particles 5, 580 (2022). 

[36] J.B. Gu, C.Y. Li, Q. Wang, W.C. Zhang*, H. Zheng, Collective expansion in pp collisions using the Tsallis statistics, J. Phys. G: Nucl. Part. Phys. 49, 115101 (2022). 

[35] J.Q. Tao, W.H. Wu, M. Wang, H. Zheng*,  W.C. Zhang, L.L. Zhu, A. Bonasera, The novel scaling of Tsallis parameters from the transverse momentum spectra of charged particles in heavy-ion collisions, Particles 5146 (2022).

[34] X. Zhang, Y. Huang, W. Lin, X. Liu*, H. Zheng et al., Determing impact parameters of heavy-ion collisions at low-intermediate incident energies using deep learning with convolutional neural network, Phys. Rev. C 105034611 (2022).

[33] L.L. Zhu, B. Wang, M. Wang, H. Zheng*, Energy and centrality dependenc of light nuclei production in relativistic heavy-ion collisions, Nucl. Sci. Tech. 3345 (2022).

[32] M. Wang, J.Q. Tao, H. Zheng*, W.C. Zhang, L.L. Zhu, A. Bonasera, Number-of-constituent-quark scaling of elliptic flow--a quantitative study, Nucl. Sci. Tech. 3337 (2022).

[31] H. Zheng*, A. Bonasera, Controlling the wordwide chaotic spreading of COVID-19 through vaccinations, Journal of Modern Physics 13, 1 (2022).

[30] G. Luo, X. Zhang, H. Zheng, D. He*, Infection fatality ratio and case fatality ratio of COVID-19, International Journal of Infectious Diseases 113, 43 (2021).

[29] Y. Huang, W. Lin, H. Zheng, R. Wada, A. Bonasera, Z. Chen, J. Han, R. Han, M. Huang, K. Hagel, T. Keutgen, X. Liu*, Y. G. Ma, C. W. Ma, Z. Majka, G. Qu, L. Qin, P. Ren, G. Tian, J. Wang, Z. Yang, and J. B. Natowitz, Experimental investigation of abnormal transverse flow enhancement of alpha particles in heavy-ion collisions, Phys. Rev. C 104, 044611 (2021).

[28] H. Zheng*, A. Bonasera, Spin Quantization in Heavy Ion Collision, Symmetry 13, 1777 (2021).

[27] C.W. Ma*, H.L. Wei, X. Liu, J. Su, H. Zheng, W.P. Lin, Y.X. Zhang, Nuclear Fragments in Projectile Fragmentation Reactions, Progress in Particle and Nuclear Physics 121, 103911 (2021). (Review)

[26] T. Settlemyre*, H. Zheng, A. Bonasera, Coulomb field correction due to virtual e+e- production in heavy ion collisions, Nucl. Phys. A 1015, 122282 (2021).

[25] J.Q. Tao, M. Wang, H. Zheng*, W.C. Zhang, L.L. Zhu and A. Bonasera, Pseudorapidity distributions of charged particles in pp(pbar), p(d)A and AA collisions using Tsallis thermodynamics, J. Phys. G: Nucl. Part. Phys. 48, 105102 (2021).

[24] G.R. Che, J.B. Gu, W.C. Zhang*, H. Zheng, Identified particle spectra in Pb-Pb, Xe-Xe and p-Pb collisions with Tsallis blast wave model, J. Phys. G: Nucl. Part. Phys. 48, 095103 (2021).

[23] L.L. Zhu, H. Zheng*, R. Hwa, Centrality and transverse-momentum dependence of hadrons in Pb+Pb collisions at energies available at the CERN Large Hadron Collider, Phys. Rev. C 104, 014902 (2021).

[22] W. Lin, P. Ren, X. Liu*, H. Zheng, M. Huang, G. Qu, R. Wada, Investigation of the nuclear liquid-gas phase transition in the static AMD, J. Phys. G: Nucl. Part. Phys. 48, 085103 (2021).

[21] G. Qu, Y. Huang, D. Peng, Z. Xu, W. Lin, H. Zheng, G. Tian, R. Han, C. Ma, M. Huang, P. Ren, J. Han, Z. Yang, X. Liu*, R. Wada, Abnormal flow of alpha particles in heavy-ion collisions at intermediate energies, Phys. Rev. C 103, 044607 (2021).

[20] Y. Huang, H. Zheng, R. Wada, X. Liu, W. Lin, G. Qu, M. Huang, P. Ren, J. Han, A. Bonasera, K. Hagel, M. R. D. Rodrigues, S. Kowalski, T. Keutgen, M. Barbui, and J. B. Natowitz, Nuclear temperature and its dependence on the source neutron-proton asymmetry deduced using the Albergo thermometer, Phys. Rev. C 103, 014601 (2021).

[19] M. Huang, A. Bonasera, S. Zhang*,  H. Zheng, D.X. Wang, J.C. Wang, N. Song, X. Tang, L. Lu, G. Zhang, Z. Kohley, M.R.D. Rodrigues, Y.G. Ma and S.J. Yennello, Four alpha correlations in nuclear fragmentation: a game of resonances, Chin. Phys. C 45, 024003 (2021).

[18] H. Zheng*, A. Bonasera, Chaos, percolation and the coronavirus spread: a two-step model, Eur. Phys. J. Plus, 135, 799 (2020).

[17] J.C. Wang, S. Zhang, M. Huang, R. Wada, H. Zheng, D.X. Wang, N. Song, X. Tang , L. Li, The Influence of Gogny Nucleon-Nucleon Interaction Potentials of AMD on Ground State Properties of Nuclei, Nucl. Phys. Rev. 37, 580 (2020). (in Chinese)

[16] H. Zheng*, A. Bonasera, The Thomas theorem and the Efimov States within a generalized Bohr model, J. Phys. Commun. 4, 085011 (2020).

[15] Y. Huang, W. Lin, H. Zheng, R. Wada, X. Liu*, G. Qu, M. Huang, P. Ren, J. Han, M.R.D. Rodrigues, S. Kowalski, T. Keutgen, K. Hagel, M. Barbui, A. Bonasera and J.B. Natowitz, Probing the neutron-proton asymmetry dependence of the nuclear source temperature with light charged particles, Phys. Rev. C 101, 064603 (2020).

[14] H. Zheng*, X.R. Zhu, L.L. Zhu and A. Bonasera, Systematic investigation of the particle spectra in Heavy-ion collisions at the Large Hadron Collider, Mod. Phys. Lett. A 35, 2050177 (2020).

[13] L.Y. Qiao, G.R. Che, J.B. Gu, H. Zheng and W.C. Zhang*, Nuclear modification factor in Pb-Pb and p-Pb collisions using Boltzmann transport equation, J. Phys. G: Nucl. Part. Phys. 47, 075101 (2020) .

[12] X. Liu, H. Zheng, R. Wada, W. Lin*, M. Huang, P. Ren, G. Qu, J. Han, M.R.D. Rodrigues, S. Kowalski, T. Keutgen, K. Hagel, M. Barbui, A. Bonasera and J.B. Natowitz, Neutron-proton asymmetry dependence of nuclear temperature with Intermediate mass fragments, Phys. Rev. C 100, 064601 (2019).

[11] L.L. Zhu, H. Zheng* and R.M. Kong, Centrality and Transverse momentum dependencies of Hadrons in Pb+Pb collisions at \sqrt{s_{NN}}=5.02 TeV and Xe+Xe collisions at \sqrt{s_{NN}}=5.44 TeV from a multi-phase transport model, Eur. Phys. J. A 55, 205 (2019).

[10] K. Wang*, A. Bonasera, H. Zheng, G.Q. Zhang, Y.G. Ma and W.Q. Shen, The role of the Heisenberg principle in constrained molecular dynamics model, Int. J. Mod. Phys. E 28, 1950039 (2019).

[9] G. Zhang, M. Huang, A. Bonasera, Y.G. Ma, B.F. Shen, H.W. Wang, W.P. Wang, J.C. Xu, G.T. Fan, H.J. Fu, H. Xue, H. Zheng, L.X. Liu, S. Zhang, W.J. Li, X.G. Cao, X.G. Deng, X.Y. Li, Y.C. Liu, Y. Yu, Y. Zhang, C.B. Fu, X.P. Zhang, Nuclear probes of an out-of-equilibrium plasma at the highest compression, Phys. Lett. A 383, 2285 (2019).

[8] S. Zhang*, J.C. Wang, A. Bonasera, M. Huang, H. Zheng, G. Zhang, Z. Kohley, Y.G. Ma, S.J. Yennello, Triple $\alpha$-particle Resonances in the Decay of Hot Nuclear Systems, Chin. Phys. C 43, 064102 (2019).

[7] W. Lin, P. Ren, H. Zheng*, X. Liu*, M. Huang, K. Yang, G. Qu and R. Wada, Solidarity of signal of measures for the liquid-gas phase transition in the statistical multifragmentation model, Phys. Rev. C 99, 054616 (2019).

[6] S. Burrello*, M. Colonna, G. Col\`{o}, D. Lacroix, X. Roca-Maza, G. Scamps and H. Zheng, Interplay between low-lying isoscalar and isovector dipole modes: a comparative analysis between semi-classical and quantum approaches, Phys. Rev. C 99, 054314 (2019).

[5] K. Zelga*, Z. Majka, R. P{\l}aneta, Z. Sosin*, A. Wieloch, M. Adamczyk, K. {\L}ojek, M. Barbui, S. Wuenschel, K. Hagel, X. Cao, J. Natowitz, R. Wada, G. Giuliani, E.-J. Kim,  H. Zheng and S. Kowalski, Dedicated $\Delta$E-E detector system for searching long-lived heaviest nuclei deposited in scintillators, Acta Physica Polonica B 50, 579 (2019).

[4] S. Zhang*, A. Bonasera, M. Huang*, H. Zheng, D.X. Wang, J.C. Wang, L. Lu, G. Zhang, Z. Kohley, Y.G. Ma, S.J. Yennello, Strongly Resonating Bosons in Hot Nuclei, Phys. Rev. C 99, 044605 (2019).

[3] S. Burrello, M. Colonna*,  H. Zheng, The symmetry energy of the nuclear EoS: a study of collective motion and low-energy reaction dynamics in semiclassical approaches , Frontiers in Physics 7, 53 (2019). (Invited review)

[2] R. Wada*, W. Lin, P. Ren, H. Zheng, X. Liu, M. Huang, K. Yang and K. Hagel, Experimental liquid-gas phase transition signals and reaction dynamics, Phys. Rev. C 99, 024616 (2019).

[1] X. G. Cao, E. J. Kim, K. Schmidt, K. Hagel*, M. Barbui, J. Gauthier, S. Wuenschel, G. Giuliani, M. R. D. Rodriguez, S. Kowalski, H. Zheng, M. Huang, A. Bonasera, R. Wada, N.Blando, G. Q. Zhang, C. Y. Wong, A. Staszczak, Z. X. Ren, Y. K. Wang, S. Q. Zhang, J. Meng and J. B. Natowitz, Examination of evidence for resonances at high excitation energy in the 7 alpha disassembly of 28Si, Phys. Rev. C 99, 014606 (2019).

 

Selected Publications(before 2019)

[26] W.B. Zhao, L.L. Zhu, H. Zheng, C.M. Ko, H.C. Song*, Spectra and flow of light nuclei in relativistic heavy ion collisions at energies available at the BNL Relativistic Heavy Ion Collider and at the CERN Large Hadron Collider, Phys. Rev. C 98, 054905 (2018).

[25] L.L. Zhu, H. Zheng, C.M. Ko, Y.F. Sun, Light nuclei production in Pb+Pb collisions at sqrt(sNN)=2.76 TeV, Eur. Phys. J. A 54, 175 (2018).

[24H. Zheng*, S. Burrello, M. Colonna*, D. Lacroix and G. Scamps, Connecting the nuclear equation of state to the interplay between fusion and quasifission processes in low-energy nuclear reactions, Phys. Rev. C 98, 024622 (2018).

[23] W. Lin, P. Ren, H. Zheng*, X. Liu*, M. Huang, R. Wada, and G. Qu, Sensitivity study of experimental measures for nuclear liquid-gas phase transition in the statistical multifragmentation model, Phys. Rev. C 97, 054615 (2018).

[22] W. Lin, H. Zheng, P. Ren, X. Liu*, M. Huang, R. Wada*, Z. Chen, J. Wang, G.Q. Xiao and G. Qu, Statistical analysis of experimental multifragmentation events in 64Zn+112Sn at 40 MeV/nucleon, Phys. Rev. C 97, 044603 (2018).

[21] H. Zheng*, A. Bonasera, M. Huang, S. Zhang, Decay modes of the Hoyle state in 12C, Phys. Lett. B 779, 460-463 (2018).

[20] X. Liu, H. Zheng, W. Lin, M. Huang, Y. Y. Yang*, J. S. Wang, R. Wada*, A. Bonasera, and J. B. Natowitz, Reexamination of a novel determination of density, temperature, and symmetry energy based on a modified Fisher model, Phys. Rev. C 97, 014613 (2018).

[19] Y. Gao, H. Zheng*, L.L. Zhu and A. Bonasera, Description of charged particle pseudorapidity distributions in Pb+Pb collisions with Tsallis thermodynamics, Eur. Phys. J. A 53, 197 (2017).

[18H. Zheng*, S. Burrello, M. Colonna and V. Baran, Pre-equilibrium effects in charge-asymmetric low-energy reactions, Phys. Lett. B 769, 424-429 (2017).

[17] X. Liu, W. Lin*, M. Huang, R. Wada*, J. Wang, A. Bonasera, H. Zheng, Z. Chen, S. Kowalski, T. Keutgen, K. Hagel, L. Qin,  J.B. Natowitz, T. Materna, P.K. Sahu, M. Barbui, C. Bottosso and  M. R. D. Rodrigues, Chemical potential and symmetry energy for intermediate-mass fragment production in heavy ion reactions near the Fermi energy, Phys. Rev. C 95, 044601 (2017).

[16] J. Mabiala*, H. Zheng,  A. Bonasera, Z. Kohley, and S. J. Yennello, Competition between fermions and bosons in nuclear matter at low densities and finite temperatures, Phys. Rev. C 94, 064617 (2016).

[15] H. Zheng*, S. Burrello, M. Colonna and V. Baran, Dipole response in neutron-rich nuclei with new Skyrme interactions, Phys. Rev. C 94, 014313 (2016).

[14] P. Marini*, H. Zheng, M. Boisjoli, G. Verde, A. Chbihi, P. Napolitani, G. Ademard, L. Augey, C. Bhattacharya, B. Borderie, R. Bougault, J. D. Frankland, Q. Fable, E. Galichet, D. Gruyer, S. Kundu, M. La Commara, I. Lombardo, O. Lopez, G. Mukherjee, M. Parlog, M. F. Rivet, E. Rosato, R. Roy, G. Spadaccini, M. Vigilante, P. C. Wigg, A. Bonasera (INDRA Collaboration), Signals of Bose Einstein condensation and Fermi quenching in the decay of hot nuclear systems, Phys. Lett. B 756, 194-199 (2016).

[13] H. Zheng, Lilin Zhu*, Comparing the Tsallis Distribution with and without Thermodynamical Description in p+p Collisions, Advances in High Energy Physics, Vol. 2016, Article ID 9632126 (2016).

[12] H. Zheng, Lilin Zhu* and A. Bonasera, Systematic analysis of hadron spectra in p+p collisions using Tsallis distributions, Phys. Rev. D 92, 074009 (2015).

[11] J. Mabiala*, H. Zheng, A. Bonasera, P. Cammarata, K. Hagel, L. Heilborn, Z. Kohley, L. W. May, A. B. McIntosh, M. D. Youngs, A. Zarrella and S. J. Yennello, Novel technique to extract experimental symmetry free energy information for nuclear matter, Phys. Rev. C 92, 024605 (2015).

[10] G. Giuliani, H. Zheng* and A. Bonasera, The Many Facets of the (Non-relativistic) Nuclear Equation of State, Progress in Particle and Nuclear Physics 76, 116-164 (2014). (Invited review)

[9] H. Zheng*, G. Giuliani and A. Bonasera, Coulomb Corrections to the Extraction of the Density and Temperature in Non-Relativistic Heavy Ion Collisions, J. Phys. G: Nucl. Part. Phys. 41, 055109 (2014).

[8] H. Zheng*, G. Giuliani and A. Bonasera, Coulomb Corrections to Density and Temperature of Bosons in Heavy Ion Collisions, Phys. Rev. C 88, 024607 (2013).

[7] M. Barbui*, W. Bang, A. Bonasera, K. Hagel, K. Schmidt, J.B. Natowitz, R. Burch, G. Giuliani, M. Barbarino, H. Zheng, G. Dyer, H.J. Quevedo, E. Gaul, A.C. Bernstein, M. Donovan, S. Kimura, M. Mazzocco, F. Consoli, R. De Angelis, P. Andreoli and T. Ditmire, Measurement of the Plasma Astrophysical S Factor for the ^3He(d, p)4He Reaction in Exploding Molecular Clusters, Phys. Rev. Lett. 111, 082502 (2013).

[6] H. Zheng*, G. Giuliani and A. Bonasera, Density and Temperature of Bosons from Quantum Fluctuations, Nucl. Phys. A 892, 43-57 (2012).

[5] L. Qin, K. Hagel, R. Wada, J.B. Natowitz, S. Shlomo, A. Bonasera, G. R\"opke, S. Typel, Z. Chen, M. Huang, J. Wang, H. Zheng, S. Kowalski, M. Barbui, M.R.D. Rodrigues, K. Schmidt, D. Fabris, M. Lunardon, S. Moretto, G. Nebbia, S. Pesente, V. Rizzi, G. Viesti, M. Cinausero, G. Prete, T. Keutgen, Y. EI Masri, Z. Majka and Y.G. Ma, Laboratory Tests of Low Density Astrophysical Nuclear Equations of State, Phys. Rev. Lett. 108, 172701 (2012).

[4] K. Hagel, R. Wada, L. Qin, J.B. Natowitz, S. Shlomo, A. Bonasera, G. R\"opke, S. Typel, Z. Chen, M. Huang, J. Wang, H. Zheng, S. Kowalski, C. Bottosso, M. Barbui, M.R.D. Rodrigues, K. Schmidt, D. Fabris, M. Lunardon, S. Moretto, G. Nebbia, S. Pesente, V. Rizzi, G. Viesti, M. Cinausero, G. Prete, T. Keutgen, Y. EI Masri and Z. Majka, Experimental Determination of In-Medium Cluster Binding Energies and Mott Points in Nuclear Matter, Phys. Rev. Lett. 108, 062702 (2012).

[3] H. Zheng* and A. Bonasera, Higher Order Corrections to Density and Temperature of Fermions from Quantum Fluctuations, Phys. Rev. C 86, 027602 (2012).

[2] H. Zheng and A. Bonasera*, Density and Temperature of Fermions from Quantum Fluctuations, Phys. Lett. B 696, 178-181 (2011).

[1] H. Zheng and C.B. Yang* , Uncertainties of Parton Distributions in a Shower from the Recombination Model, J. Phys. G: Nucl. Part. Phys. 35, 055003 (2008).

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