Inelastic collisions of molecules with cold electrons
Grant Agency
Grant Agency of the Academy of Sciences of the Czech Republic
Topics
Development and Application of Quantum Chemical Methods
Year from
2008
Year to
2010
Abstract:
The goal of the project is to develop a theory necessary for description of inelastic collisions of cold electrons with polar molecules. Collisions energies under 100 meV allow only several paths opened. The proposed model will include two accessible inelastic channels, namely rotational excitation and dissociative attachment. Cross-sections for both channels are very large and therefore both processes are dominant for a cooling (or heating) of the molecules inside cold plasmas or interstellar clouds. The theoretical approach will be used to determine state-to-state cross-sections based on experiments carried out in the synchrotron laboratory ASTRID at the University of Arhus in Denmark. The proposed project, in conjuction with the experiment, will therefore derive first set of data for the inelastic rate constants describing collisions of molecules and cold electrons.
The goal of the project is to develop a theory necessary for description of inelastic collisions of cold electrons with polar molecules. Collisions energies under 100 meV allow only several paths opened. The proposed model will include two accessible inelastic channels, namely rotational excitation and dissociative attachment. Cross-sections for both channels are very large and therefore both processes are dominant for a cooling (or heating) of the molecules inside cold plasmas or interstellar clouds. The theoretical approach will be used to determine state-to-state cross-sections based on experiments carried out in the synchrotron laboratory ASTRID at the University of Arhus in Denmark. The proposed project, in conjuction with the experiment, will therefore derive first set of data for the inelastic rate constants describing collisions of molecules and cold electrons.
Mgr. ČURÍK Roman Ph.D.
Room
124
Department
Extension
+420 26605 3256
E-mail
roman.curikjh-inst.cas.cz
Publications