"Effect of the spin-orbit coupling in the dissociation dynamics of rare-gas ionic trimers"@en . . . "photodissociation; spin-orbit coupling; rare-gas cluster; DIM; mean-field dynamics; xenon; argon"@en . "RIV/61988987:17310/05:00000002!RIV06-GA0-17310___" . "A dynamical model combining an extended {\\it diatomics-in-molecules} approach with the inclusion of the spin-orbit coupling and the {\\it mean-field dynamics} method has been developed for rare-gas cluster cations, Rg$_n^+$, and employed in simulations of the photodissociation dynamics of argon, krypton, and xenon singly charged trimers. As the first step, total kinetic energies deposited in the photofragments are calculated for all the three rare gases and for a wide range of photon energies, and compared with available experimental data. A very good agreement between experiment and theory is reached, including a plausible theoretical explanation for an abrupt change in the total kinetic energy of photofragments at about 2.5\\,eV of photon energy, which was recently observed experimentally for Xe$_3^+$ (and also, but less clearly for Ar$_3^+$)." . . "42" . . . "4"^^ . . "3"^^ . "Kalus, Ren\u00E9" . . "Europhysics Letters" . "519488" . . "FR - Francouzsk\u00E1 republika" . . "7"^^ . "Effect of the spin-orbit coupling in the dissociation dynamics of rare-gas ionic trimers" . "Efekty zp\u016Fsoben\u00E9 spin-orbit\u00E1ln\u00ED vazbou v dynamice disociace iontov\u00FDch trimer\u016F vz\u00E1cn\u00FDch plyn\u016F"@cs . . "RIV/61988987:17310/05:00000002" . "Dynamick\u00FD model kombinuj\u00EDc\u00ED metodu diatomics-in-molecules s metodou mean-field dynamics byl pou\u017Eit k teoretick\u00E9mu studiu fotodisociace iontov\u00FDch trimer\u016F vz\u00E1cn\u00FDch plyn\u016F."@cs . . "Effect of the spin-orbit coupling in the dissociation dynamics of rare-gas ionic trimers"@en . "Effect of the spin-orbit coupling in the dissociation dynamics of rare-gas ionic trimers" . "A dynamical model combining an extended {\\it diatomics-in-molecules} approach with the inclusion of the spin-orbit coupling and the {\\it mean-field dynamics} method has been developed for rare-gas cluster cations, Rg$_n^+$, and employed in simulations of the photodissociation dynamics of argon, krypton, and xenon singly charged trimers. As the first step, total kinetic energies deposited in the photofragments are calculated for all the three rare gases and for a wide range of photon energies, and compared with available experimental data. A very good agreement between experiment and theory is reached, including a plausible theoretical explanation for an abrupt change in the total kinetic energy of photofragments at about 2.5\\,eV of photon energy, which was recently observed experimentally for Xe$_3^+$ (and also, but less clearly for Ar$_3^+$)."@en . . "Efekty zp\u016Fsoben\u00E9 spin-orbit\u00E1ln\u00ED vazbou v dynamice disociace iontov\u00FDch trimer\u016F vz\u00E1cn\u00FDch plyn\u016F"@cs . . . . . "0" . . "17310" . . . "[7EA42E8B64B2]" . . "71" . "0295-5075" . . "P(GA203/02/1204), Z(MSM 173100003)" . "Hriv\u0148\u00E1k, Daniel" . "Gad\u00E9a, F. X." . "Weissov\u00E1, Zde\u0148ka" . . .