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Collision and transport properties of Rg+Cl(2P) and Rg+Cl−(1S) (Rg=Ar, Kr) from ab initio potentials

Buchachenko, A. A. ; Krems, R. V. ; Szczȩśniak, M. M. ; [et al.]

AIP Publishing ; 2001

In: The Journal of Chemical Physics Vol. 114, No. 22 ( 2001-06-08), p. 9919-9928

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 114, No. 22 ( 2001-06-08), p. 9919-9928

Abstract: Highly accurate ab initio coupled cluster theory calculations, with single, double and noniterative triple excitations [CCSD(T)], and with the extended basis set augmented by the bond functions, were performed for the interactions of chlorine atom and chloride anion with Ar and Kr. Analytical fits to the ab initio points were shown to provide the consistent and reliable set of multiproperty potentials capable of reproducing all the available experimental data, namely: Total cross sections for Rg+Cl, reduced mobilities and diffusion coefficients for Rg+Cl−, as well as the data of spectroscopic zero electron kinetic energy experiments [see Buchachenko et al., J. Chem. Phys. 114, 9929 (2001), following paper] . The relative accuracy of available interaction potentials is discussed.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.1370530

Language: English

Publisher: AIP Publishing

Publication Date: 2001

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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Ab initio zero electron kinetic energy spectroscopy of the ArCl− and KrCl− anions

Buchachenko, A. A. ; Szczȩśniak, M. M. ; Chałasiński, Grzegorz

AIP Publishing ; 2001

In: The Journal of Chemical Physics Vol. 114, No. 22 ( 2001-06-08), p. 9929-9937

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 114, No. 22 ( 2001-06-08), p. 9929-9937

Abstract: The theory for calculating the energies and relative intensities of the photodetachment transitions of the weakly bound diatomic anions is implemented for simulations of the zero electron kinetic energy spectra of the ArCl− and KrCl− anions using high-quality ab initio potentials. Its key features are the reduction of the molecular electronic photodetachment transition dipole moment matrix elements to the combination of atomic ones within the atoms-in-molecule model and estimation of the latter by well-developed approaches to the atomic photodetachment processes. The difference in the electronic photodetachment transition dipole moments for distinct electronic states of the neutral, importance of vibrational–rotational coupling, and rotational structure of vibronic bands are analyzed. It is shown that ab initio simulations provide almost the same level of agreement with measured spectra as did the empirical potentials adjusted to reproduce the experimental data. The predictive power of the theory is demonstrated by the discovery of the hidden transitions to the I3/2 state of KrCl which strongy overlap with those to X1/2 state.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.1370531

Language: English

Publisher: AIP Publishing

Publication Date: 2001

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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Ab initio simulations of the KrO− anion photoelectron spectra

Buchachenko, A. A. ; Szczȩśniak, M. M. ; Kłos, Jacek ; [et al.]

AIP Publishing ; 2002

In: The Journal of Chemical Physics Vol. 117, No. 6 ( 2002-08-08), p. 2629-2634

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 117, No. 6 ( 2002-08-08), p. 2629-2634

Abstract: The photoelectron spectra of the weakly bound KrO− anion are simulated using a theory which combines the atoms-in-molecule model for molecular electronic wave functions and the Rau–Fano model for photodetachment intensities [J. Chem. Phys. 112, 5852 (2000)] . The nonrelativistic potential energy curves of the anion are obtained from ab initio calculations. The calculated spectra and their temperature variation agree with the experimental data presented in the preceding article. The strong selectivity of the photodetachment process with respect to the symmetry of fine-structure components is rationalized and quantified.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.1491411

Language: English

Publisher: AIP Publishing

Publication Date: 2002

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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Ab initio based study of the ArO− photoelectron spectra: Selectivity of spin–orbit transitions

Buchachenko, A. A. ; Jakowski, Jacek ; Chałasiński, Grzegorz ; [et al.]

AIP Publishing ; 2000

In: The Journal of Chemical Physics Vol. 112, No. 13 ( 2000-04-01), p. 5852-5865

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 112, No. 13 ( 2000-04-01), p. 5852-5865

Abstract: A combined ab initio atoms-in-molecule approach was implemented to model the photoelectron spectra of the ArO− anion. The lowest adiabatic states of Σ and Π symmetry of ArO and ArO− were investigated using the fourth-order Møller–Plessett perturbation theory including bond functions. The total energies were dissected into electrostatic, exchange, induction, and dispersion components. The complex of Ar with atomic oxygen is only weakly bound, primarily by dispersion interaction. The Π state possesses a deeper minimum (Re=3.4 Å,De=380 μEh) than the Σ state (Re=3.8 Å,De=220 μEh). In contrast, the anion complex is fairly strongly bound, primarily by ion-induced dipole induction forces, and the Σ state possesses a deeper minimum at shorter interatomic distances (Re=3.02 Å,De=3600 μEh) than the Π state (Re=3.35 Å,De=2400 μEh). The Σ–Π splittings in both systems are mainly due to differences in the exchange repulsion terms. Atoms-in-molecule models were used to account for the spin–orbit interaction, and to generate adiabatic relativistic potentials and wave functions. Collisional properties, diffusion, and mobility coefficients of O and O− in Ar, and absolute total Ar+O scattering cross sections, were calculated and found to agree well with the available experimental data. The photoelectron spectra were simulated within vibronic model, and were found in excellent agreement with the experimental measurements. The bimodal electron kinetic energy distribution was shown to stem from the strong selectivity of spin–orbit transitions, which split into two dense groups, depending on the initial electronic state of the anion. The latter feature cannot be described without explicit consideration of electronic intensity factor.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.481186

Language: English

Publisher: AIP Publishing

Publication Date: 2000

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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