报告之一:Analysis and Simulation of Bose-Einstein Condensation & Quadrature-rule Type Approximations to Quasicontinuum Method
时间:2011.5.31(周二)上午9:30
地点:数统大楼 5楼 信息系会议室
Outline:
1 Introduction
2 Mathematical models
3 Analytical results
4 Numerical methods and simulations
5 Conclusions and ongoing/future work
报告之二:Growth and Experience of Establishing Mathematical Caree
时间:2011.5.31(周二)下午2:30
地点:数统大楼 2楼 报告厅
欢迎大家参加!
数学与统计学院
2011.5.28
张燕只博士2002年毕业于我校数学与应用数学专业,后留学新加坡和美国,现为美国Missouri University of Science and Technology(Missouri Institute of Computational and Applied Mathematical Sciences,Department of Mathematics and Statistics)副教授。
张博士这次是应重庆大学虎溪校区管委会副主任、弘深学院常务副院长吴德垠教授的邀请回母校访问的。
张燕只博士简历:
Education
� B. Sc. in Applied Mathematics (Minor in Computer Science) 07/2002
Chongqing University, Chongqing, China
� Ph. D in Mathematics 09/2006
National University of Singapore, Singapore
Dissertation title: Mathematical Analysis and Numerical Simulation of Bose–Einstein
Condensation
Adviser: Dr. Weizhu Bao
Professional Experience
� Assistant Professor 08/2010 – present
Department of Mathematics and Statistics
Missouri Institute of Computational and Applied Mathematical Sciences (MICAMS)
Missouri University of Science and Technology, USA
� Postdoctoral Research Associate, Mentor of REU student 07/2007 – 07/2010
Department of Scientific Computing, Florida State University, USA
Adviser: Dr. Max Gunzburger
� Visiting Fellow 11/2006 – 12/2006
Walfgang Pauli Institute, University of Vienna, Austria
Adviser: Dr. Norbert Mauser
� Research Fellow, Mentor of honor undergraduate students 09/2006 – 06/2007
Department of Mathematics, National University of Singapore, Singapore
Adviser: Dr. Weizhu Bao
Research Grant
� UM Research Board Grant (2010-2011) Quantized vortices in Bose-Einstein condensates (Principal
Investigator) – $13,000
Research Interest
� Multiscale modeling and simulations in material science
� Bose–Einstein condensation
� Optimal control problems in superconductivity and superfluidity
� Quantized vortex dynamics
� Numerical algorithms for partial differential equations
� Computational and applied mathematics in general
Publications
1. Dynamics of the ground state and central vortex states in Bose–Einstein condensation, W. Bao
and Y. Zhang, Math. Mod. Meth. Appl. Sci. 15 (2005), 1863–1896.
2. Dynamics of rotating Bose–Einstein condensates and their efficient and accurate numerical computation,
W. Bao, Q. Du and Y. Zhang, SIAM J. Appl. Math. 66 (2006), 758–786.
3. Dynamics of the center of mass in rotating Bose–Einstein condensates, Y. Zhang and W. Bao,
Appl. Numer. Math. 57 (2007), 697–709.
4. Energy and chemical potential asymptotics for the ground state of Bose–Einstein condensates in
the semiclassical regime, W. Bao, F.Y. Lim and Y. Zhang, Academia Sinica 2 (2007), 495–532.
5. Numerical simulation of vortex dynamics in Ginzburg–Landau–Schr¨odinger equation, Y. Zhang,
W. Bao and Q. Du, Eur. J. Appl. Math. 18 (2007), 607–630.
6. Dynamics of vortices in weakly interacting Bose–Einstein condensates, A. Klein, D. Jaksch, Y.
Zhang and W. Bao, Phys. Rev. A 76 (2007), 043602.
7. The dynamics and interaction of quantized vortices in Ginzburg–Landau–Schr¨odinger equation,
Y. Zhang, W. Bao and Q. Du, SIAM J. Appl. Math. 67 (2007), 1740–1775.
8. Dynamics of rotating two-component Bose–Einstein condensates and its efficient computation,
Y. Zhang, W. Bao and H. Li, Physica D, 234 (2007), 49–69.
9. Quantized vortex stability and interaction in the nonlinear wave equation, W. Bao, R. Zeng and
Y. Zhang, Physica D 237 (2008), 2391–2410.
10. Efficiently computing vortex lattices in fast rotating Bose–Einstein condensates, R. Zeng and Y.
Zhang, Comput. Phys. Commun. 180 (2009) 854–860.
11. A quadrature-rule type approximation to the quasicontinuum method, M. Gunzburger and Y.
Zhang, SIAM Multiscale Model. Simul. 8 (2010), 571–590.
12. Quadrature-rule type approximations to the quasicontinuum method for long-range interatomic
interactions, Y. Zhang and M. Gunzburger, Comput. Methods Appl. Mech. Engrg. 199 (2010),
648–659.
13. Numerical study of vortex interactions in Bose–Einstein condensation, Y. Zhang, Commun.
Comput. Phys. 8 (2010), 327–350.
14. Dynamical laws of the coupled Gross–Pitaevskii equations for spin-1 Bose–Einstein condensates,
W. Bao and Y. Zhang, Meth. Appl. Anal. 17 (2010), 49–80.
15. Maximizing critical currents in superconductors by optimization of normal inclusions properties,
Y. Zhang, J. Peterson and M. Gunzburger, Physica D, under review.
Journal Referee
Applied Mathematics and Computation, Applied Mathematical Modeling, Computer Physics
Communications, Electronic Journal of Differential Equations, International Journal of
Computer Mathematics, International Journal of Modern Physics B, Journal of Computational
Physics, Mathematics and Computers in Simulation, Numerical Methods for Partial
Differential Equations, SIAM Journal on Numerical Analysis, SIAM Journal on Scientific
Computing
Memberships: SIAM, AWM
好啊,张燕只也回母校来看看了。
如果本科生或者研究生有志于以后出国读书,这是一次很好的机会。
(偏)微分方程数值方法是非常有前途的一个研究方向,强烈向我们数学系和信息系的本科生、研究生推荐!
有兴趣的同学最好直接问张燕只,是否可以跟着她读博士。顺便提一下,在西方国家,Assistant Professor就可以招博士研究生。