Abstract
We conducted a time-resolved double resonance study of 13CH 3 F to explore the rotational and vibrational energy transfer processes in this optically pumped far infrared (OPFIR) laser. The use of a Q-switched CO 2 laser and sensitive, tunable millimeter and submillimeter (mm/submm) techniques allowed us to probe not only the gain profile of the laser transition, but also many other states that are collisionally coupled and play important roles in the energy transfer process (1,2).
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