Theoretical calculation of integral cross sections of rotational excitation for collisions in isotopes of He atom with Na2 molecule

Li, Wenfeng; Rong-Feng, Linghu; Cheng, Xinlu; Yang, Xiangdong

doi:10.7498/aps.59.4591

Acta Phys. Sin.

2010

DOI: 10.7498/aps.59.4591

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Theoretical calculation of integral cross sections of rotational excitation for collisions in isotopes of He atom with Na2 molecule

Wenfeng Li¹,

Linghu Rong-Feng²,

Xinlu Cheng³

et al.

Abstract: Multiple hard-ellipsoid model is a theoretical model which can more accurately decribe collisions between He atom and Na2 molecule. In this paper, we adopted the multiple hard-ellipsoid model to calculate the integral cross sections of rotational excitation for collisions in 3He,4He,7He,10He-Na2 systems at different relative incidence energies. This study shows that we can improve the accuracy of the results by increasing the number of equipotential ellipsoid surfaces. Moreover, we find that the integral cross… Show more

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2011

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Cited by 2 publications

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Influence of isotope substitution of sodium molecule on the integral cross sections of rotational excitation in low-temperature collisions of He-Na2

臧华平¹

2011

Acta Phys. Sin.

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Multiple ellipsoid model is applied to the 4He,10He-18Na2,23Na2, and 37Na2collision systems, and integral cross-sections for rotational excitation and the total collision cross-sections at the incident energy of 50,100 and 200 meV are calculated. By analyzing the differences of these integral cross-sections, the change rules of the integral cross sections with the increase of rotational angular quantum number of Na2 molecule, as well as with the change of the reduced mass of symmetric isotopic substituted system are obtained. Based on the calculation, influence on the cross-sections exerted by the variations in the reduced mass of systems and in the relative incoming energy of incident atom is discussed. Moreover, at the relative incident energy of 100 meV, the contributions of different regions of the potential to integral cross-sections of rotational excitation for10He-18Na2,23Na2 and 37Na2 collision systems are investigated.

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Influence of isotope substitution of sodium molecule on the integral cross sections of rotational excitation in low-temperature collisions of He-Na2

臧华平¹

2011

Acta Phys. Sin.

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Study of isotope effect in20Ne(34Ne)-18Na2(23Na2,37Na2) low-temperature collisions

臧华平¹,

李文峰²,

令狐荣锋³

et al. 2011

Acta Phys. Sin.

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Multiple ellipsoid model is applied to the20Ne,34Ne-18Na2,23Na2 and37Na2collision systems. The integral cross-sections for rotational excitation and total collision cross-sections at the incident energy of 190 meV are calculated. Moreover, at the related incident energy, the contributions of different regions of the potential to the integral cross-sections of rotational excitation for20Ne-18Na2,23Na2 and37Na2 collision systems are investigated. By analyzing the differences of these integral cross-sections, the change rules of the integral cross sections with the change of rotational angular quantum number of Na2 molecule, as well as with the change of the reduced mass of symmetric isotopic substituted system are obtained.

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Theoretical calculation of integral cross sections of rotational excitation for collisions in isotopes of He atom with Na2 molecule

Cited by 2 publications

References 23 publications

Influence of isotope substitution of sodium molecule on the integral cross sections of rotational excitation in low-temperature collisions of He-Na2

Influence of isotope substitution of sodium molecule on the integral cross sections of rotational excitation in low-temperature collisions of He-Na2

Study of isotope effect in20Ne(34Ne)-18Na2(23Na2,37Na2) low-temperature collisions

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