Fragmentation of Kr_N⁺ clusters after electron impact ionization. Short-time dynamics simulations and approximate multi-scale treatment

Abstract: Post-ionization fragmentation of small ionic krypton clusters, Kr (N = 3-13), has been investigated using a semiclassical non-adiabatic dynamics approach consisting of classical treatment of atomic nuclei and full quantum treatment of electrons, and an extended diatomics-in-molecules model including the spin-orbit coupling as well as leading three-body interaction corrections. Electronic quantum decoherence has also been considered via a simplified scheme proposed previously. The positive charge has been initi… Show more

“…Note also that alternative names like hemiquantal method [14,16,22,23,24,25,26,27] and semiclassical method [19,28,29,20,30,21,31] were also used in our previous studies.…”

“…approach, it is typically about one attempt per ∆t Q ≈ 10 − 100 fs, while for the MFQ-TFS method, it is usually by an order of magnitude shorter (an attempt per ∆t Q ≈ 1 − 10 fs) because the rejection rate is much higher (see, e.g., references 19,31). Note also that if a quenching attempt is performed each time step, the MFQ-TFS approach becomes very close to the Tully's Fewest Switches one.…”

“…2.5.1), with K fixed to the selected atom and m = x, y, z and s z = ±1/2. Since, in addition, we found from the energy considerations that a (four-dimensional) subspace of this atomic state space corresponding to the P 3/2 term cannot contribute to the production of ionic monomer fragments due to lack of energy, only the (twodimensional) orthogonal complement of the P 3/2 space (corresponding to P 1/2 ) was considered in later calculations [21,31].…”

Non-adiabatic dynamics combining Ehrenfest, decoherence, and multiscale approaches applied to ionic rare-gas clusters photodissociation, post-ionization fragmentation, and collisions

“…Note also that alternative names like hemiquantal method [14,16,22,23,24,25,26,27] and semiclassical method [19,28,29,20,30,21,31] were also used in our previous studies.…”

“…approach, it is typically about one attempt per ∆t Q ≈ 10 − 100 fs, while for the MFQ-TFS method, it is usually by an order of magnitude shorter (an attempt per ∆t Q ≈ 1 − 10 fs) because the rejection rate is much higher (see, e.g., references 19,31). Note also that if a quenching attempt is performed each time step, the MFQ-TFS approach becomes very close to the Tully's Fewest Switches one.…”

“…2.5.1), with K fixed to the selected atom and m = x, y, z and s z = ±1/2. Since, in addition, we found from the energy considerations that a (four-dimensional) subspace of this atomic state space corresponding to the P 3/2 term cannot contribute to the production of ionic monomer fragments due to lack of energy, only the (twodimensional) orthogonal complement of the P 3/2 space (corresponding to P 1/2 ) was considered in later calculations [21,31].…”

Non-adiabatic dynamics combining Ehrenfest, decoherence, and multiscale approaches applied to ionic rare-gas clusters photodissociation, post-ionization fragmentation, and collisions

“…OPEN-13-2) and multiprocessing work stations of the parallel computational center of Toulouse. [22] As discussed elsewhere [21], radiative processes do not play an important role during the collision compared to non-radiative processes and are thus neglected here. Moreover, since under ambient conditions the time during which the dimer ion undergoes collisions is much shorter than the time it spends as a free molecule, the effect of radiative processes taking place during the collisions may, in addition, be also considered negligible with respect to the free-flight phase.…”

“…Two kinds of transition processes are considered in the present work, (non-radiative) collision-induced transitions and spontaneous radiative transitions in free ionic dimers. As discussed elsewhere [21], radiative processes do not play an important role during the collision compared to non-radiative processes and are thus neglected here [22]. Since, in addition, the probability of non-radiative transitions is very small in free Kr + 2 ions (exactly zero if the spin-orbit coupling is neglected), the non-radiative free-flight transitions are neither considered here.…”

Relaxation of electronic excitations in Kr₂⁺ ions in cold krypton plasma.

Fragmentation of Kr_N⁺ clusters after electron impact ionization II. Long-time dynamics simulations of Kr₇⁺ evolution and the role of initial electronic excitation