15min:

ATSUKO MAEDA, ERIC HERBST, FRANK C. DE LUCIA, Department of Physics, The Ohio State University, Columbus, OH 43210, USA.

Methyl formate exists abundantly in interstellar hot cores and corinos and is known as an interstellar weed. Recently, normal methyl formate in its first excited torsional state (v_t=1) was identified from U-lines towards Orion KL based on laboratory measurements of methyl formate in v_t=1 through 200 GHz. In our previous study of HCOOCH₃ and H¹³COOCH₃ in the ground torsional state, the rotational-torsional spectrum was measured throughout the 100-380 GHz region with our FASSST apparatus. Among the rotational lines in the ground torsional state, satellite lines were also detected for both isotopic species. In this study, we have made new rotational-torsional assignments to v_t=1 and 2 for both isotopic species based on previous microwave and millimeter-wave data on normal methyl formate in v_t=1 and with the aid of reduced Fortrat diagrams. The rotational-torsional analysis of the A and E substates in a torsional state was performed with the ErHam program, which was developed for molecules with one or two internal rotors. Approximately 1000 transitions assigned to v_t=1 were analyzed to a unitless standard deviation of 1 for the normal and ¹³C₁ species of methyl formate. A majority of transitions with high J> 20 and high K_a\geq9 in v_t=1 showed large and systematic deviations in preliminary fits and were omitted in the final fit. The torsional assignments to v_t=1 and 2 are supported with relative energies calculated from intensity ratios and molecular constants. The latest results of our internal rotation analysis of HCOOCH₃ and H¹³COOCH₃ in thier torsional excited states will be discussed.