| 1. | The kinetics of the vibrational excitation of HCl is therefore fundamental.
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| 2. | This vibrational excitation is produced by the following electrons:
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| 3. | Calculated rate constants of dissociative attachment and vibrational excitation reactions of HCl electrons.
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| 4. | Vertical ionization involves vibrational excitation of the ionic state and therefore requires greater energy.
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| 5. | The solid and dashed curves show respectively the dissociative attachment rate and vibrational excitation.
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| 6. | The vibrational excitation is a result of the energy left after exciplex molecule formation.
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| 7. | The vibrational excitation seems to play a role that is still not well defined.
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| 8. | Absorption bands in the infrared are due to modes of vibrational excitation in water vapor.
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| 9. | This expression is without translational energy, rotational energy, vibrational excitations, and other such considerations.
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| 10. | For 6p states, the role of vibrational excitation of HCl in the kinetics of XeCl formation is poorly understood.
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