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Fragmentation dynamics of diatomic molecules under proton impact: Kinetic energy release spectra of CO^(q+) and NO^(q+) (q = 2, 3) molecular ions

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arxiv 2202.06322 v1 pith:WOP6XX3J submitted 2022-02-13 physics.atom-ph

Fragmentation dynamics of diatomic molecules under proton impact: Kinetic energy release spectra of CO^(q+) and NO^(q+) (q = 2, 3) molecular ions

classification physics.atom-ph
keywords fragmentationmolecularenergycalculatedcoulombdiatomicdynamicsimpact
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report on the fragmentation dynamics of triply charged, diatomic, molecular ions of NO and CO. Dissociative fragmentation after multiple ionization of NO and CO is studied under the impact of 200 keV proton beam using recoil-ion momentum spectrometer. Kinetic Energy Release distributions (KERDs) for various fragmentation channels were obtained. We have also calculated the potential energy curves (PECs) for ground and several excited states of NO^{3+} and CO^{3+} molecular ion. The obtained KERDs are discussed in the background of the calculated PECs as well as the simple Coulomb excitation model. Coulomb breakup of the unstable precursor molecular ion shows a clear preference for the N^{2+} + O^+ (and C^{2+} + O^+) fragmentation channel.

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