Denna sida på svenska Patrik Hedvall Stockholm University Research projects Ongoing Completed p.TextInput { R transient java.lang.Object _data = 'com.polopoly.cm.app.policy.SingleValuePolicy'; R static java.lang.String p.publicInterfaces = 'com.polopoly.cm.app.policy.SingleValued'; R static java.lang.String p.mt = 'com.polopoly.cm.app.policy.SingleValuePolicy'; R static java.lang.String p.beanClass = 'com.polopoly.cm.app.policy.SingleValuePolicy'; RW java.lang.String value = 'Ab initio studies of reactive scattering processes '; },ModelStore=com.polopoly.model.ModelStoreInMap Quantum mechanical studies of reactive scattering processes are performed involving small reaction complexes in highly excited states where non-adiabatic effects are crucial. The theoretical model is tested by close collaboration with experiments. Edit the profile $presentationText
p.TextInput { R transient java.lang.Object _data = 'com.polopoly.cm.app.policy.SingleValuePolicy'; R static java.lang.String p.publicInterfaces = 'com.polopoly.cm.app.policy.SingleValued'; R static java.lang.String p.mt = 'com.polopoly.cm.app.policy.SingleValuePolicy'; R static java.lang.String p.beanClass = 'com.polopoly.cm.app.policy.SingleValuePolicy'; RW java.lang.String value = 'Ab initio studies of reactive scattering processes '; },ModelStore=com.polopoly.model.ModelStoreInMap Quantum mechanical studies of reactive scattering processes are performed involving small reaction complexes in highly excited states where non-adiabatic effects are crucial. The theoretical model is tested by close collaboration with experiments.
