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Atomic processes generated by synchrotron radiation

Atomic processes generated by synchrotron radiation

Lecturer: Prof. Dr. Alexei Grum-Grzhimailo (Lomonosov Moscow State University)
Time: 4 st., Mi 10-12, Fr 8-10
Room: SR GMH
Block lecture course: 17.01.2017 - 09.02.2018

ECTS points: 2 for attendance of course

The lecture is recommended for Master students who plan to specialize in Atomic, Molecular and Optical Physics.
 


 

Material

 

Program:

  • X-rays and vacuum ultraviolet (VUV, XUV) radiation in nature and human civilization. Synchrotron radiation and its main features. Generations of synchrotron radiation sources. Wigglers, ondulators. X-ray free electron lasers.
  • Photoabsorption in VUV and XUV. Gross structure of the cross sections, photoionization channels, threshold features, giant resonances, Cooper minima.
  • Photoelectron spectroscopy. Direct and shake transitions, electron correlations, angular distribution of photoelectrons, double photoionization.
  • Spin-resolved photoelectron spectroscopy. Dynamic spin polarization and polarization transfer, relativistic effects, Fano effect.
  • Autoionizing states and resonances. Classification of autoionizing states and methods of their investigation, resonance profiles in the cross sections and photoelectron parameters.
  • Auger effect. Normal and resonant Auger effect, Auger cascades, angular distribution and spin polarization of Auger electrons, coincidence photoelectron-Auger electron spectroscopy, post-collision interaction.
  • Pump-probe experiments. XUV photoionization from laser-excited and polarized states, dichroism and magnetic dichroism.
  • Complete experiment. The concept of complete quantum mechanical experiment, realizations of complete experiments in photoionization of atoms, complete experiments in Auger decay.
  • Nondipole effects. Origins and examples of nondipole effects, nondipole effects in photoelectron angular distribution and spin polarization.