On the other hand, the formation of CO 3+ 2 with∆q=1 forq≥8 is predicted to be predominantly via the 3C2AP process

CO 3+ 2 The formation of CO3+ 2 with∆q=2 is predicted to be predominantly via the 3C1A P process for all projectiles in the present work

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Association between projectile and target excitation in slow Ar$^{q+}$-CO$_2$ collisions

physics.atom-ph · 2026-04-10 · unverdicted · novelty 5.0

In slow Ar^{q+}-CO2 collisions, KER distributions for CO2^{n+} fragmentation are broader at high KER for Δq=2 than Δq=1, indicating a dependence between target and projectile excitations.

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Association between projectile and target excitation in slow Ar$^{q+}$-CO$_2$ collisions physics.atom-ph · 2026-04-10 · unverdicted · none · ref 2
In slow Ar^{q+}-CO2 collisions, KER distributions for CO2^{n+} fragmentation are broader at high KER for Δq=2 than Δq=1, indicating a dependence between target and projectile excitations.

On the other hand, the formation of CO 3+ 2 with∆q=1 forq≥8 is predicted to be predominantly via the 3C2AP process

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