教育及科研工作经历:
2018.06-现在 威廉希尔,威廉希尔,研究员
2017.08-2018.04 意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),博士后
2017.07-2017.07 意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),访问学者
2017.04-2017.06 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
2017.02-2017.03 意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),访问学者
2015.02-2017.02 意大利南方国家实验室(INFN, Laboratori Nazionali del Sud),博士后
2009.09-2014.12 美国德州农工大学(Texas A&M University),博士(导师:Aldo Bonasera教授)
2008.09-2009.08 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)
2006.09-2008.06 华中师范大学,粒子物理研究所,硕士(导师:杨纯斌教授)
2002.09-2006.06 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秋):18-24研
《高等量子力学》, (19 春):16物
《分析力学》, (19-24秋):18-23物创
《量子力学》, (20春&22春&23春&24春):17物&19物&20物&21物
指导员工情况:
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
教学论文:
[1] 电子自旋是角动量的讨论,程剑剑,郑华*,《大学物理》,38(10)28, 2019.
[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》,38(11)62, 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》,31(1)25,2021.
[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》,40(5)13, 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》41(3)28, 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》 43(2), 158, 2022.
[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》,42(4)51,2023.
[8] 物理学中的“降维打击”,郑华*,王新刚,朱励霖,《物理与工程》,33(3)46,2023.
[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》,43(5)33,2024.
[10] 傅科摆的教学实践,杨晓彤,郑华*,《广西物理》45(1),18,2024.
[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 supervisor: Prof. 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 supervisor: Prof. M. Colonna, Email: colonna@lns.infn.it
2018.06-present, Senior Scientist at School of Physics and Information Technology, Shaanxi Normal University, Xi’an, China
Teaching
l Quantum mechanics for undergraduate
l Analytical mechanics for undergradate
l 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 110,014910 (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 110,014316 (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 109,044609 (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 108, 054907 (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 107,064907 (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 107,044602 (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 107,L031301 (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 5,146 (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 105,034611 (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. 33,45 (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. 33,37 (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).
[24] H. 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).
[18] H. 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).
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