K. Hammami scite author profile

We closely compare the accuracy of multidimensional potential energy surfaces (PESs) generated by the recently developed explicitly correlated coupled cluster (CCSD(T)-F12) methods in connection with the cc-pVXZ-F12 (X = D, T) and aug-cc-pVTZ basis sets and those deduced using the well-established orbital-based coupled cluster techniques employing correlation consistent atomic basis sets (aug-cc-pVXZ, X = T, Q, 5) and extrapolated to the complete basis set (CBS) limit. This work is performed on the benchmark rare gas-hydrogen halide interaction (HCl-He) system. These PESs are then incorporated into quantum close-coupling scattering dynamical calculations in order to check the impact of the accuracy of the PES on the scattering calculations. For this system, we deduced inelastic collisional data including (de-)excitation collisional and pressure broadening cross sections. Our work shows that the CCSD(T)-F12/aug-cc-pVTZ PES describes correctly the repulsive wall, the van der Waals minimum and long range internuclear distances whereas cc-pVXZ-F12 (X = D,T) basis sets are not diffuse enough for that purposes. Interestingly, the collision cross sections deduced from the CCSD(T)-F12/aug-cc-pVTZ PES are in excellent agreement with those obtained with CCSD(T)/CBS methodology. The position of the resonances and the general shape of these cross sections almost coincide. Since the cost of the electronic structure computations is reduced by several orders of magnitude when using CCSD(T)-F12/aug-cc-pVTZ compared to CCSD(T)/CBS methodology, this approach can be recommended as an alternative for generation of PESs of molecular clusters and for the interpretation of accurate scattering experiments as well as for a wide production of collisional data to be included in astrophysical and atmospherical models.

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Low‐Temperature Rate Constants for Rotational Excitation and De‐excitation of C₃(X ¹Σ$^{+}_{g}$ ) by Collisions with He (¹S)

Abdallah

Hammami

Najar

et al. 2008

Astrophysical Journal

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The low-temperature rotational (de-) excitation of C 3 (X 1 AE þ g ) by collisions with He ( 1 S ) is studied using an ab initio potential energy surface (PES). This PES has been calculated using the single-and double-excitation coupledcluster approach with noniterative perturbational treatment of triple excitations [CCSD( T)] and the augmented correlation-consistent triple-basis set (aug-cc-pVTZ ) with bond functions. This PES is then incorporated in full close-coupling quantum scattering calculations for collision energies between 0.1 and 50 cm À1 in order to deduce the rate constants for rotational levels of C 3 up to j = 10, covering the temperature range 5Y15 K.

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Rotational excitation of methylidynium (CH+) by helium atom at low temperature

Hammami

Owono

Jaı̈dane

et al. 2008

Journal of Molecular Structure: THEOCHEM

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K. Hammami

On the accuracy of explicitly correlated methods to generate potential energy surfaces for scattering calculations and clustering: application to the HCl–He complex

Low‐Temperature Rate Constants for Rotational Excitation and De‐excitation of C₃(X ¹Σ$^{+}_{g}$ ) by Collisions with He (¹S)

Rotational excitation of methylidynium (CH+) by helium atom at low temperature

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K. Hammami

On the accuracy of explicitly correlated methods to generate potential energy surfaces for scattering calculations and clustering: application to the HCl–He complex

Low‐Temperature Rate Constants for Rotational Excitation and De‐excitation of C3(X 1Σ$^{+}_{g}$ ) by Collisions with He (1S)

Rotational excitation of methylidynium (CH+) by helium atom at low temperature

Contact Info

Product

Resources

About

Low‐Temperature Rate Constants for Rotational Excitation and De‐excitation of C₃(X ¹Σ$^{+}_{g}$ ) by Collisions with He (¹S)