Add to ORKG$^{1}$A.G. Maki and J.S. Wells, J. Mol. Spectrosc. 108, 17 (1984).Author Institution: Department of Physics, Duke University; Department of Physics, University of South Alabama; Department of Physics, Duke University; Department of Physics, Duke UniversityExtensive measurements of the rotational spectrum of nitric acid $(HNO_{3})$ in its $\nu_{5}$ excited vibrational state have been carried out in the millimeter and submillimeter wave spectral region. The assignment of this spectrum was significantly aided by the recent infrared work of Maki and $Wells^{1}$. Much of the data was obtained on a new broadband millimeter and submillimeter spectrometer which is based on traveling wave tube and harmonic generator technology. The long, continuous ...
Author Institution: Department of Physics, Wright State University, Dayton OH 45435; Department of P...
Author Institution: Department of Physics, The Ohio State University; Laboratoire de Physique Molecu...
This work was supported by the U.S. Army Research Office, Grant No. DAAG29-77-G-0007. Gabriels Cazzo...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, Wright State University; Department of Physics, Universit...
Author Institution: Department of Physics, Wright State University; Department of Physics, Universit...
Author Institution: Department of Physics, Wright State University; Department of Physics, Universit...
The analysis of the rotational spectrum of HNO3 has been extended to include the υ8 = υ9 = 1 state a...
The analysis of the rotational spectrum of HNO3 has been extended to include the υ8 = υ9 = 1 state a...
The analysis of the rotational spectrum of HNO3 has been extended to include the υ8 = υ9 = 1 state a...
Previous studies of the pure rotational spectrum of deuterated nitric acid, DNO$_{3}$, have focused ...
Author Institution: Department of Physics, Wright State University, Dayton OH 45435; Department of P...
Author Institution: Department of Physics, Wright State University, Dayton OH 45435; Department of P...
Author Institution: Department of Physics, The Ohio State University; Laboratoire de Physique Molecu...
This work was supported by the U.S. Army Research Office, Grant No. DAAG29-77-G-0007. Gabriels Cazzo...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, The Ohio State University; Department of Physics, Univers...
Author Institution: Department of Physics, Wright State University; Department of Physics, Universit...
Author Institution: Department of Physics, Wright State University; Department of Physics, Universit...
Author Institution: Department of Physics, Wright State University; Department of Physics, Universit...
The analysis of the rotational spectrum of HNO3 has been extended to include the υ8 = υ9 = 1 state a...
The analysis of the rotational spectrum of HNO3 has been extended to include the υ8 = υ9 = 1 state a...
The analysis of the rotational spectrum of HNO3 has been extended to include the υ8 = υ9 = 1 state a...
Previous studies of the pure rotational spectrum of deuterated nitric acid, DNO$_{3}$, have focused ...
Author Institution: Department of Physics, Wright State University, Dayton OH 45435; Department of P...
Author Institution: Department of Physics, Wright State University, Dayton OH 45435; Department of P...
Author Institution: Department of Physics, The Ohio State University; Laboratoire de Physique Molecu...
This work was supported by the U.S. Army Research Office, Grant No. DAAG29-77-G-0007. Gabriels Cazzo...