Trajectory-based simulations of strong-field phenomena
发布日期:2019-04-22   作者:王玲   浏览次数:116

报告题目:Trajectory-based simulations of strong-field phenomena

报告人:Prof.N. I. Shvetsov-Shilovski

主持人:吴健教授

时间:2019-04-2413:30

地点:理科大楼A814

报告人简介:

Career History

08/2017–present Advanced researcher at Institute for Theoretical Physics, Leibniz UniversityHanover, Hanover, Germany.

04/2015–07/2017 Postdoctoral Research Associate at Institute for Theoretical Physics and Centre for Quantum Engineering and Space-Time Research, Leibniz University Hanover, Hanover, Germany.

01/2013–03/2015 Postdoctoral Research Associate at Quantum Control and Dynamics Group,Department of Physics, Tampere University of Technology, Tampere, Finland.

07/2011–12/2012 Postdoctoral Research Associate at Lundbeck Foundation Theoretical Center for Quantum System Research, Department of Physics and Astronomy, Aarhus University, Aarhus, Denmark.

07/2010–06/2011 Postdoctoral Research Associate at Institute of Optics and Quantum Electronics, Friedrich-Schiller-University, Jena, Germany.

01/2009–11/2011 Associate professor at Moscow Engineering Physics Institute, Department of General Physics, Moscow, Russia1

06/2005–12/2008 Senior lecturer at Moscow Engineering Physics Institute, Department of General Physics, Moscow, Russia.

02/2005–05/2005 Assistant professor at Moscow Engineering Physics Institute, Department of General Physics, Moscow, Russia.

Education

04/2010 Title of Docent in General Physics awarded by Ministry of Education andScience of Russian Federation

12/2005 Doctor of Philosophy Degree. Thesis titled “Final state interaction effects inabove-threshold ionization spectra of atoms and negative ions in intense laser fields”, Moscow Engineering Physics Institute, Moscow, Russia. Supervisor: Prof. Dr. S. P. Goreslavski.

2002–2005 Postgraduate student of Moscow Engineering Physics Institute, Department of Theoretical Nuclear Physics, Moscow, Russia.

1996–2002 Student of Moscow Engineering Physics Institute, Moscow, Russia. Degree:Engineer-Physicist, Diploma thesis: “Angular distributions of rescattered electrons in elliptically polarized field”, Diploma with Honor.

报告内容简介:

Strong-field, ultrafast, and attosecond physics are perspective research avenues that result from remarkable developments in laser technologies. In accord with the common definition, a "strong" electric field corresponds to the field strength comparable to thatexperienced by an electron in a hydrogen atom. The "ultrafast" time scales typically refer to a laser pulse length of the order of femtoseconds. Attosecond science investigates dynamics of quantum systems on the timescale less than one femtosecond. The time scales mentioned here imply a great diversity of applications in science andtechnology. We briefly overview these applications and discuss some highly nonlinear phenomena originating from interaction of strong laser radiation with atoms and molecules. Semiclassical models that apply classical description of an ionized electron are now extensively used in strong-field physics. We discuss trajectory-based simulations of many strong-field phenomena, including above-threshold ionization,capture into Rydberg states, nonsequential double ionization, etc. We analyze application of semiclassical models to strong-field holography with photoelectrons, which is a new and promising technique for time-resolved molecular imaging.