Add to ORKGAuthor Institution: Department of Physics, The University Of New Brunswick; Department of Chemistry, Australian National University; Department of Physics, The Ohio State UniversityThe new Fast Scan Submillimeter Spectroscopic Technique (FASSST) has been utilized to take the rotational spectra of ethylene oxide and methyl mercaptan in the frequency range 260-360 GHz. This technique uses a voltage tunable Backward Wave Oscillator with fast scan and optical calibration methods. The newly taken spectra of both of these molecules have been combined with previous laboratory data and analyzed. Ethylene oxide, a newly discovered interstellar molecule, is a rigid asymmetric top and can be analyzed by standard techniques. Methyl mercaptan, a three-f...
Author Institution: The Ohio State University; Department of Physics, The Ohio State University; Dep...
International audienceContext. New laboratory investigations of the rotational spectrum of postulate...
Author Institution: Department of Physics, The University of Tokyo; Department of Physics and Resear...
Author Institution: Department of Physics, The University Of New Brunswick; Department of Chemistry,...
Author Institution: Department of Chemistry, Australian National University; Research School of Chem...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, The Uni...
The cyclic molecule ethylene oxide (c-C_2 H_4 O) has recently been detected in the interstellar sour...
The cyclic molecule ethylene oxide (c-C_2 H_4 O) has recently been detected in the interstellar sour...
A new FAst Scan Submillimeter Spectroscopic Technique (FASSST) for analytical applications is descri...
Context. Sulfur-containing molecules constitute only 8% of the molecules observed in the interstella...
Author Institution: Department of Physics, The Ohio State University; Department of Chemistry, Natio...
$^{a}$ P. Groner J. Chem. Phys. 107, 4483 (1997).Author Institution: Department of Chemistry, Univer...
Context. New laboratory investigations of the rotational spectrum of postulated astronomical species...
Author Institution: Department of Chemistry, University of Missouri-Kansas City, Kansas City, MO 641...
Author Institution: The Ohio State University; Department of Physics, The Ohio State University; Dep...
Author Institution: The Ohio State University; Department of Physics, The Ohio State University; Dep...
International audienceContext. New laboratory investigations of the rotational spectrum of postulate...
Author Institution: Department of Physics, The University of Tokyo; Department of Physics and Resear...
Author Institution: Department of Physics, The University Of New Brunswick; Department of Chemistry,...
Author Institution: Department of Chemistry, Australian National University; Research School of Chem...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, The Uni...
The cyclic molecule ethylene oxide (c-C_2 H_4 O) has recently been detected in the interstellar sour...
The cyclic molecule ethylene oxide (c-C_2 H_4 O) has recently been detected in the interstellar sour...
A new FAst Scan Submillimeter Spectroscopic Technique (FASSST) for analytical applications is descri...
Context. Sulfur-containing molecules constitute only 8% of the molecules observed in the interstella...
Author Institution: Department of Physics, The Ohio State University; Department of Chemistry, Natio...
$^{a}$ P. Groner J. Chem. Phys. 107, 4483 (1997).Author Institution: Department of Chemistry, Univer...
Context. New laboratory investigations of the rotational spectrum of postulated astronomical species...
Author Institution: Department of Chemistry, University of Missouri-Kansas City, Kansas City, MO 641...
Author Institution: The Ohio State University; Department of Physics, The Ohio State University; Dep...
Author Institution: The Ohio State University; Department of Physics, The Ohio State University; Dep...
International audienceContext. New laboratory investigations of the rotational spectrum of postulate...
Author Institution: Department of Physics, The University of Tokyo; Department of Physics and Resear...