Multiply differential study of vibrational dissociative capture in p+ D2 collisions

S. Majumdar; A. Hasan; S. Bastola; B. R. Lamichhane; R. Lomsadze; M. Schulz

doi:10.1103/PhysRevA.110.032821

Multiply differential study of vibrational dissociative capture in p+ D2 collisions

S. Majumdar
, A. Hasan
, S. Bastola
, B. R. Lamichhane
, R. Lomsadze
, M. Schulz

Department of Physics

Research output: Contribution to journal › Article › peer-review

Abstract

We have measured multiple differential cross sections for dissociative capture in collisions of 75-keV protons with D2. Data were analyzed for kinetic energy releases (KERs) ranging from 0 to 2 eV, where the dissociation is primarily caused by excitation of the nuclear motion to a vibrational continuum state. Pronounced signatures of two-center interference effects were observed. The data were compared to previously published cross sections for dissociative capture in p+H2 collisions, for which we reported a scattering angle dependent phase shift in the interference term. The D2 data reveal qualitative differences in the interference structure to the H2 case. Some aspects of the present results appear to support a hypothetical explanation which we offered earlier for the H2 data, but other aspects are not fully understood yet.

Original language	English
Article number	032821
Journal	Physical Review A
Volume	110
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevA.110.032821
Publication status	Published - Sept 2024

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1103/PhysRevA.110.032821

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abstract = "We have measured multiple differential cross sections for dissociative capture in collisions of 75-keV protons with D2. Data were analyzed for kinetic energy releases (KERs) ranging from 0 to 2 eV, where the dissociation is primarily caused by excitation of the nuclear motion to a vibrational continuum state. Pronounced signatures of two-center interference effects were observed. The data were compared to previously published cross sections for dissociative capture in p+H2 collisions, for which we reported a scattering angle dependent phase shift in the interference term. The D2 data reveal qualitative differences in the interference structure to the H2 case. Some aspects of the present results appear to support a hypothetical explanation which we offered earlier for the H2 data, but other aspects are not fully understood yet.",

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AU - Majumdar, S.

AU - Hasan, A.

AU - Bastola, S.

AU - Lamichhane, B. R.

AU - Lomsadze, R.

AU - Schulz, M.

PY - 2024/9

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N2 - We have measured multiple differential cross sections for dissociative capture in collisions of 75-keV protons with D2. Data were analyzed for kinetic energy releases (KERs) ranging from 0 to 2 eV, where the dissociation is primarily caused by excitation of the nuclear motion to a vibrational continuum state. Pronounced signatures of two-center interference effects were observed. The data were compared to previously published cross sections for dissociative capture in p+H2 collisions, for which we reported a scattering angle dependent phase shift in the interference term. The D2 data reveal qualitative differences in the interference structure to the H2 case. Some aspects of the present results appear to support a hypothetical explanation which we offered earlier for the H2 data, but other aspects are not fully understood yet.

AB - We have measured multiple differential cross sections for dissociative capture in collisions of 75-keV protons with D2. Data were analyzed for kinetic energy releases (KERs) ranging from 0 to 2 eV, where the dissociation is primarily caused by excitation of the nuclear motion to a vibrational continuum state. Pronounced signatures of two-center interference effects were observed. The data were compared to previously published cross sections for dissociative capture in p+H2 collisions, for which we reported a scattering angle dependent phase shift in the interference term. The D2 data reveal qualitative differences in the interference structure to the H2 case. Some aspects of the present results appear to support a hypothetical explanation which we offered earlier for the H2 data, but other aspects are not fully understood yet.

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Multiply differential study of vibrational dissociative capture in p+ D2 collisions

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