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VERSION:2.0
PRODID:icalendar-ruby
CALSCALE:GREGORIAN
METHOD:PUBLISH
BEGIN:VEVENT
DTSTAMP:20260307T023017Z
UID:https://www.mpsd.mpg.de/events/15742/17182
DTSTART:20181017T084500Z
DTEND:20181017T094500Z
CLASS:PUBLIC
CREATED:20181015T145804Z
DESCRIPTION: The theoretical description of nonlinear optical spectroscopy 
 has traditionally been laid in the framework of perturbation theory. Withi
 n this formalism\, an intuitive approach to the understanding of the dynam
 ics of a molecular system excited by several external laser pulses is base
 d on the concept of nonlinear response functions. However\, as the system 
 complexity increases or nontrivial dynamic effects have to be taken into a
 ccount (nonadiabatic interstate couplings\, bath-induced relaxation) the p
 erturbative approach becomes computationally expensive. To tackle this sce
 nario nonperturbative approaches based on the numerically exact solution o
 f quantum equations of motions have been developed.\nSpeaker: Elisa Palaci
 no Gonzalez
LAST-MODIFIED:20181015T145804Z
LOCATION:CFEL (Bldg. 99)\, Room: Seminar Room III\, EG.080
ORGANIZER;CN=Angel Rubio:mailto:
SUMMARY:MPSD Seminar: Elisa Palacino Gonzalez - Molecular Photodynamics of 
 Open Quantum Systems. Simulation of Nonlinear Optical Spectroscopies using
  Nonperturbative Approaches 
URL;VALUE=URI:https://www.mpsd.mpg.de/events/15742/17182
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