刘朗
性别:男
职称:教授
E-mail:liulang@jiangnan.edu.cn
“你们也许会问,(科学家)辛苦求索那些事实到底有什么好处?这除了会使那些衣褛褴衫并乐于去收集这些事实的教授高兴外,对于其他人貌似并没有用处,因为只有那些顶尖的专家才能理解它们。为了回答这样的问题,我斗胆做一个较为有把握的假设。
科学和技术的发展史不断地告诉我们,基础科学的进步成果或早或晚都会在技术及工业领域获得应用,而这已经引起我们生活方式上的革新。我并不认为物质结构相关的研究会是个例外。但我并不那么确定,人类会在如何合理获取自然的能源这一问题上迅速能有成熟的看法。尽管我们都热切地期望着这一点。”
——恩里科·费米
【学术简介】
博士,教授。江苏省“双创博士”,江南大学“至善青年学者”,华盛顿大学物理系访问学者。在 Physical Review C 等杂志发表论文多篇,第九届无锡市优秀科技论文二等奖。主持国家自然科学基金面上项目,青年项目。主要从事原子核理论研究,原子核物理是涉及宇宙演化,元素形成,物质基本结构的学科,研究兴趣和领域主要包括:
1.原子核物理的第一性原理研究。我及我的合作者致力于发展精确的原子核第一性原理蒙特卡洛壳模型并应用于原子核结构及相关交叉领域的研究。
2. 热原子核性质及对关联相变。
3. 原子核的超流性对原子核集体运动,主要是反磁转动的影响。
4. 机器学习与人工智能在原子核物理,主要是在第一性原理计算中的应用。
5. 并行计算的算法优化和开发。
Doctor, professor. Jiangsu Province "Dr. of Shuangchuang", "Honor Young Scholar" of Jiangnan University. As the first author, I have published papers in Physical Review C and other journals. Among them, the article on the properties of the 162Dy thermal nucleus won the second prize of the 9th Wuxi Excellent Scientific Paper. Served as a reviewer for Chinese Physics C. From November 2018 to August 2020, I was a visiting scholar in the Department of Physics, University of Washington, USA. Preside over or complete the general projects of the National Natural Science Foundation of China, youth projects, and participate in the key independent scientific research projects of Jiangnan University.
I mainly do research on nuclear theory. Nuclear physics is a discipline that involves the evolution of the universe, the formation of elements, and the basic structure of matter. I am mainly engaged in the theoretical research of nuclear physics, and my research interests and fields mainly include:
1. First-principles study of nuclear physics. My collaborators and I are committed to developing accurate ab-initio Monte Carlo shell models of nuclei and applying them to the study of nuclear structure and related intersections.
2. Thermal properties and phase transition of pairing correlations in nuclei.
3. The effect of superfluidity of atomic nuclei on collective motion of atomic nuclei, such as antimagnetic rotation.
4. The application of machine learning and artificial intelligence in nuclear physics, mainly in first-principles calculations.
5. Algorithm optimization and development for parallel computing.
【讲授课程】
“大学物理”、 “原子与量子物理”、核物理通识课“核物理:物质核芯 星辰燃料”
【工作及研究经历】:
2013年3月 至今 江南大学理学院
2018年11月 ---- 2020年8月 美国华盛顿大学物理系 访问学者
2011年1月 ---- 2012年12月 北京大学物理学院 博士后
2007年10月 ---- 2010年10月 东京大学物理系 博士
2003年9月 ---- 2006年7月 北京大学物理学院 硕士
1998年9月 ---- 2002年7月 南京大学物理系 学士
2013/03 – now School of Science, Jiangnan University
2018/11 – 2020/08 Visiting Scholar Department of Physics, University of Washington
2011/01 – 2012/12 Postdoctor School of Physics, Peking University
2007/10 – 2010/10 Ph.D. Department of Physics, University of Tokyo
2003/09 – 2006/07 Master Physics School, Peking University
1998/10 – 2002/07 Bachelor Physics Department, Nanjing University
【学生培养和招收】
每年招收 2 名左右硕士研究生,指导一个本科生大创团队。
对学生的要求:勤奋、坚韧而不固执、保持好奇心、健康的身体和心理。
【已毕业学生】
研究生:
颜涛 2020年9月至2023年6月 中国移动云能力中心 (苏州)
高宇航 2021年9月至2024年6月 公务员 (无锡)
本科生:
林彦龙 2023年6月毕业 美国 北卡莱罗纳州立大学 核天体物理 攻读博士
王锦非 2024年6月毕业 北京大学物理学院 粒子物理与核物理 攻读博士
【主要论著】(部分)
[1] Y. Gao, Y. Lin, and L. Liu*, “Classification of Pairing Phase Transition in the Hot Nucleus”, Int. J. Mod. Phys. E 32, 2350050 (2023).
[2] L. Liu and Y.-L. Yu*, “Expanding Proton Dripline by Employing a Number of Muons”, Chin. Phys. C 47, 114104 (2023).
[3] Y. Lin, T. Yan, and L. Liu*, “Shell-Model-like Approach Based on Cranking Covariant Density Functional Theory to 𝜈1h11/2 Band in 100Pd”, Int. J. Mod. Phys. E 31, 2250035 (2022).
[4] T. Yan, Y. L. Lin, and L. Liu*, “Thermodynamics of Pairing Transition for Odd-A Nuclei”, Phys. Rev. C 104, 024303 (2021).
[5] L. Liu*, “Cranking Covariant Density Functional Theory with a Shell-Model-like Approach for the Superdeformed Band of 42Ca”, Int. J. Mod. Phys. E 30, 2150055 (2021).
[6] L. Liu*, “Shell-Model-Like Approach Based on Cranking Covariant Density Functional Theory to the Antimagnetic Rotation Band in 101Pd”, Phys. Rev. C 99, 024317 (2019).
[7] L. Liu and Z. H. Zhang and P. W. Zhao*. “Thermodynamics of pairing transition in hot nuclei”, Phys. Rev. C 92: 044304 (2015).
[8] L. Liu*. “Ab initio Monte Carlo shell model calculations for 7Li and 9Li low-lying spectra”, Chin. Phys. C 39(6): 064101 (2015).
[9] L. Liu*. “No-core Monte Carlo shell model calculations with unitary correlation operator method and similarity renormalization group”, Chin. Phys. C 39(5): 054103 (2015).
[10] M. J. Cheng and L. Liu* and Y. X. Zhang. “Particle-number fluctuation of pairing correlations for Dy isotopes”, Chin. Phys. C 39(10): 104102 (2015).
[11] L. Liu and P. W. Zhao*. “Exact treatment of pairing correlations in Yb isotopes with covariant density functional theory”, Chin. Phys. C 38(7): 074103 (2014).
[12] L. Liu*. and J. Li. “Nuclear Magnetic Moments for Jπ = 2+1 state of 10Be with ab initio Monte Carlo shell model calculation”, Sci. China Phys. Mech. Astron. 57(2): 239--243 (2014).
[13] L. Liu*. “Ab Initio MCSM Calculation for Reduced Matrix Elements of E2 Operator for A = 10 Nuclei”, Chinese Phys. Lett. 31(8): 082102 (2014).
[14] L. Liu*, T. Otsuka, N. Shimizu, Y. Utsuno, and R. Roth. “No-core Monte Carlo shell-model calculation for 10Be and 12Be low-lying spectra”. Phys. Rev. C 86, 014302 (2012).
[15] L. Liu and P. W. Zhao*. “Nuclear currents and antimagnetic rotation”. Sci. China Phys. Mech. Astron. 55(12): 2420--2424 (2012).
[16] L. Liu and P.W. Zhao*. “α-cluster structure of 12C and 16O in covariant density functional theory with shell-model-like approach”. Chinese Phys. C, 36 (9): 818--822 (2012).
[17] J. Meng*, J. Y. Guo, L. Liu and S. Q. Zhang. “Shell-model-Like APproach (SLAP) for the nuclear properties in relativistic mean field theory”. Front. Phys. China 1: 38--46 (2006).
【以上资料更新日期】
2024年7月
