Add to ORKGpeer reviewedThe kinetic energy release distribution (KERD) for the dissociation of the Pyridine ion into C4H4++HCN in the microsecond time window has been experimentally determined and theoretically analyzed by the maximum entropy method. Less energy is channeled into the reaction coordinate than the statistical estimate because of the action of the "moentum gap law". The larger the value of the relative translational momentum of the fragments, the less efficient the exploration of phase space. the fraction of phase space efficiently sampled is estimated to be of the order of 75%
The dissociative photoionization of C2H3Br+ in the Br and HBr loss channels is reported. The KER dis...
Kinetic energy releases (KERs) in unimolecular fragmentations of singly and multiply charged ions pr...
The translational kinetic energy release distribution (KERD) for the halogen loss reaction of the br...
Kinetic energy release distributions (KERDs) for the benzene ion fragmenting into C4H4+ and C2H2 hav...
The kinetic energy released to the C4H4+ and HCN fragments produced by the dissociation of the pyrid...
peer reviewedThe experimental KER and the statistical distributions are compared by the Maximum Entr...
peer reviewedThe kinetic translational energy released in the unimolecular fragmentation reaction C6...
The kinetic energy release distributions (KERD's) for internal energy-selected ethyl iodide ions hav...
peer reviewedHydrogen loss from the toluene molecular ion generates benzylium (Bz(+)) and tropylium ...
Energy is not always fully randomized in an activated molecule because of the existence of dynamical...
The translational kinetic energy release distribution (KERD) in the halogen loss reaction of the chl...
A previous interpretation of the kinetic energy release distribution (KERD) observed in the fragment...
A retarding field technique coupled with a quadrupole mass analyzer has been used to obtain the kine...
The kinetic energy release distributions (KERDs) associated with the hydrogen loss from the benzene ...
peer reviewedPreliminary data on a new method for extracting data from the kinetic energy release di...
The dissociative photoionization of C2H3Br+ in the Br and HBr loss channels is reported. The KER dis...
Kinetic energy releases (KERs) in unimolecular fragmentations of singly and multiply charged ions pr...
The translational kinetic energy release distribution (KERD) for the halogen loss reaction of the br...
Kinetic energy release distributions (KERDs) for the benzene ion fragmenting into C4H4+ and C2H2 hav...
The kinetic energy released to the C4H4+ and HCN fragments produced by the dissociation of the pyrid...
peer reviewedThe experimental KER and the statistical distributions are compared by the Maximum Entr...
peer reviewedThe kinetic translational energy released in the unimolecular fragmentation reaction C6...
The kinetic energy release distributions (KERD's) for internal energy-selected ethyl iodide ions hav...
peer reviewedHydrogen loss from the toluene molecular ion generates benzylium (Bz(+)) and tropylium ...
Energy is not always fully randomized in an activated molecule because of the existence of dynamical...
The translational kinetic energy release distribution (KERD) in the halogen loss reaction of the chl...
A previous interpretation of the kinetic energy release distribution (KERD) observed in the fragment...
A retarding field technique coupled with a quadrupole mass analyzer has been used to obtain the kine...
The kinetic energy release distributions (KERDs) associated with the hydrogen loss from the benzene ...
peer reviewedPreliminary data on a new method for extracting data from the kinetic energy release di...
The dissociative photoionization of C2H3Br+ in the Br and HBr loss channels is reported. The KER dis...
Kinetic energy releases (KERs) in unimolecular fragmentations of singly and multiply charged ions pr...
The translational kinetic energy release distribution (KERD) for the halogen loss reaction of the br...