Thesis (Selection of subject)Thesis (Selection of subject)(version: 379)
Thesis details
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Subtle Effects in Atmos and Molecules
Thesis title in Czech: Jemné efekty v atomech a molekulách
Thesis title in English: Subtle Effects in Atmos and Molecules
Key words: radiativní korekce, polarizace vakua, tunelování, WKB aproximace
English key words: radiative corrections, vacuum polarization, tunneling, WKB approximation
Academic year of topic announcement: 2011/2012
Thesis type: dissertation
Thesis language: angličtina
Department: Department of Chemical Physics and Optics (32-KCHFO)
Supervisor: doc. Mgr. Jaroslav Zamastil, Ph.D.
Author: hidden - assigned and confirmed by the Study Dept.
Date of registration: 27.09.2013
Date of assignment: 27.09.2013
Confirmed by Study dept. on: 28.01.2014
Date and time of defence: 29.05.2018 14:00
Date of electronic submission:29.01.2018
Date of submission of printed version:29.01.2018
Date of proceeded defence: 29.05.2018
Opponents: prof. RNDr. Pavel Cejnar, Dr., DSc.
  RNDr. Milan Šindelka, Ph.D.
 
 
Guidelines
The student should first to study pertinent literature.
Second he should program the method of calculation of atomic integrals
and apply it to complex scaling of Floquet Hamiltonian.
Third he should develop method for solution of Hamilton-Jacobi equation.
References
[1] E. Foumouo et al, Phys. Rev. A 74, 063409 (2006)
[2] I. Gillary et al, Phys. Rev. A 74, 052505 (2006)
[3] J. Zamastil et al, Phys. Rev. A 75, 022506 (2007)
[4] N. Moiseyev, Phys. Rep. 302, 211 (1998)
[5] J. Zamastil and L. Skala, J. Math. Phys. 47, 022106 (2006)
Preliminary scope of work in English
Recently there has been much interest, both theoretical and experimental,
in behavior of the atoms in laser fields, see e.g. [1,2] and references therein.
This is important e.g. for further improvement
of coherent and ultrashort laser pulses as well as plasma generation.
The aim of doctoral thesis is twofold.
First, to use the numerically stable method of calculation of the
atomic integrals developed by supervisor and his coworkers [3]
to complex scaling of Floquet Hamiltonian [2,4].
Second, to extend the WKB method
for calculation of the ionization rate of the atoms by static external
electromagnetic fields developed by supervisor and his coworkes [5]
to time-dependent fields.
If succesfull, both developments would represent a substantial progress
in the field.
 
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