Add to ORKGOur previous study on dissociative recombination of ground state SH$^+$ into $^2\Pi$ states of SH is extended by taking into account the contribution of $^4\Pi$ states recently explored by quantum chemistry methods. Multichannel quantum defect theory is employed for the computation of cross sections and rate coefficients for dissociative recombination, but also for vibrational excitation. Furthermore, we produce the atomic yields resulting from recombination, quantifying the generation of sulfur atoms in their ground (\mbox{$^3$P}) and lowest excited (\mbox{$^1$D}) states respectively.Comment: 9 pages, 8 figures, 3 table
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
Author Institution: Institute of Physics, Swietokrzyska Academy, Swietokrzyska 15, PL-25406, Kielce...
International audienceHydride molecules lie at the base of interstellar chemistry, but the synthesis...
International audienceOur previous study on dissociative recombination of ground state SH^+ through ...
International audienceOur previous study on dissociative recombination of ground state SH^+ through ...
International audienceOur previous study on dissociative recombination of ground state SH^+ through ...
The Astrophysical Journal 146.5 (2013): 125, reproduced by permission of the AASSpecific rate consta...
The rate constants for the formation, destruction, and collisional excitation of SH+ are calculated ...
8 pags., 7 figs., 4 tabs.The rate constants for the formation, destruction, and collisional excitati...
Specific rate constants for the S++H2 reaction are calculated using the ground quartet state potenti...
International audienceSpecific rate constants for the S++H2 reaction are calculated using the ground...
Context. SH+ is a surprisingly widespread molecular ion in diffuse interstellar clouds. There, it pl...
The computational description of correlated electronic structure, and particularly of excited states...
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
Author Institution: Institute of Physics, Swietokrzyska Academy, Swietokrzyska 15, PL-25406, Kielce...
International audienceHydride molecules lie at the base of interstellar chemistry, but the synthesis...
International audienceOur previous study on dissociative recombination of ground state SH^+ through ...
International audienceOur previous study on dissociative recombination of ground state SH^+ through ...
International audienceOur previous study on dissociative recombination of ground state SH^+ through ...
The Astrophysical Journal 146.5 (2013): 125, reproduced by permission of the AASSpecific rate consta...
The rate constants for the formation, destruction, and collisional excitation of SH+ are calculated ...
8 pags., 7 figs., 4 tabs.The rate constants for the formation, destruction, and collisional excitati...
Specific rate constants for the S++H2 reaction are calculated using the ground quartet state potenti...
International audienceSpecific rate constants for the S++H2 reaction are calculated using the ground...
Context. SH+ is a surprisingly widespread molecular ion in diffuse interstellar clouds. There, it pl...
The computational description of correlated electronic structure, and particularly of excited states...
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
International audienceContext. SH+ is a surprisingly widespread molecular ion in diffuse interstella...
Author Institution: Institute of Physics, Swietokrzyska Academy, Swietokrzyska 15, PL-25406, Kielce...
International audienceHydride molecules lie at the base of interstellar chemistry, but the synthesis...