We present preliminary results of a full quantum calculation of state to state cross sections for H on H2. These cross sections are calculated for v=0,4 j=0,15 for energies up to 3.0 eV. The cross sections are calculated on the BKMP2 potential surface (Boothroyd et al. 1996) with the ABC scattering code (Skouteris et al. 2000)
WITH THE ADVANCES OF INSTRUMENTS DEDICATED TO MOLECULAR ASTRONOMY MADE DURING THE PAST DECADES AND F...
International audienceCollisions between H2 and H are crucial to the thermal balance of astrophysica...
The implications of H+H2 cooling in astrophysics is important to several applications. One of the mo...
The purpose of this work is to perform a quantum mechanical calculation of the collisional state-to-...
We report a joint experimental and theoretical study that directly tests the quality of the potentia...
We present quantum mechanical close-coupling calculations of collisions between two hydrogen molecul...
We report quantum-mechanical close-coupling calculations for rotational state resolved cross section...
Rate coefficients for pure rotational quenching in H2(ν 1 = 0, j 1) + H2(ν 2 = 0, j 2) collisions fr...
7 pags., 9 figs., 1 tab. -- This paper is part of the JCP Special Topic on Quantum Dynamics with Ab ...
International audienceFor chemistry networks describing the reactions for the early universe and esp...
Cross sections have been computed for rotational transitions of H2, induced by collisions with H ato...
Classical trajectory calculations of the cross sections for vibrational and rotational energy exchan...
International audienceWe report fully-quantum time-independent calculations of cross sections and ra...
Aims. In this work, we present a pruned set of state-to-state rate coefficients (STS rates) for inel...
7 pages, 9 figuresWe use the time-independent quantum-mechanical formulation of reactive collisions ...
WITH THE ADVANCES OF INSTRUMENTS DEDICATED TO MOLECULAR ASTRONOMY MADE DURING THE PAST DECADES AND F...
International audienceCollisions between H2 and H are crucial to the thermal balance of astrophysica...
The implications of H+H2 cooling in astrophysics is important to several applications. One of the mo...
The purpose of this work is to perform a quantum mechanical calculation of the collisional state-to-...
We report a joint experimental and theoretical study that directly tests the quality of the potentia...
We present quantum mechanical close-coupling calculations of collisions between two hydrogen molecul...
We report quantum-mechanical close-coupling calculations for rotational state resolved cross section...
Rate coefficients for pure rotational quenching in H2(ν 1 = 0, j 1) + H2(ν 2 = 0, j 2) collisions fr...
7 pags., 9 figs., 1 tab. -- This paper is part of the JCP Special Topic on Quantum Dynamics with Ab ...
International audienceFor chemistry networks describing the reactions for the early universe and esp...
Cross sections have been computed for rotational transitions of H2, induced by collisions with H ato...
Classical trajectory calculations of the cross sections for vibrational and rotational energy exchan...
International audienceWe report fully-quantum time-independent calculations of cross sections and ra...
Aims. In this work, we present a pruned set of state-to-state rate coefficients (STS rates) for inel...
7 pages, 9 figuresWe use the time-independent quantum-mechanical formulation of reactive collisions ...
WITH THE ADVANCES OF INSTRUMENTS DEDICATED TO MOLECULAR ASTRONOMY MADE DURING THE PAST DECADES AND F...
International audienceCollisions between H2 and H are crucial to the thermal balance of astrophysica...
The implications of H+H2 cooling in astrophysics is important to several applications. One of the mo...
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