Synchrotron‐Based Rotationally Resolved High‐Resolution FTIR Spectroscopy of Azulene and the Unidentified Infrared Bands of Astronomy-Reference-Cited by-同舟云学术

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Synchrotron‐Based Rotationally Resolved High‐Resolution FTIR Spectroscopy of Azulene and the Unidentified Infrared Bands of Astronomy

Published:2013-09-25 Issue:14 Volume:14 Page:3204-3208
ISSN:1439-4235
Container-title:ChemPhysChem
language:en
Short-container-title:ChemPhysChem

Author:

Albert Sieghard¹,Lerch Philippe²,Quack Martin¹

Affiliation:

1. Physical Chemistry, ETH Zurich, 8093 Zürich (Switzerland)

2. Swiss Light Source, Paul‐Scherrer‐Institute, 5332 Villigen (Switzerland)

Publisher

Wiley

Subject

Physical and Theoretical Chemistry,Atomic and Molecular Physics, and Optics

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/cphc.201300623

Reference47 articles.

1. I.—On essential oils. Part I

2. Chemische Analyse durch Spectralbeobachtungen

3. Chemische Analyse durch Spectralbeobachtungen

4. Zur Kenntnis der flüchtigen Pflanzenstoffe. IV. Über die Konstitution der Azulene

5. Zur Kenntnis der Sesquiterpene. (76. Mitteilung). Die Absorptionskurven des Azulens und der fünf Monomethyl-azulene im sichtbaren Bereich

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1. High resolution FTIR spectroscopy of fluoroform 12CHF3 and critical analysis of the infrared spectrum from 25 to 1500 cm−1;Molecular Physics;2018-03-22

2. Combined synchrotron-based high resolution FTIR and IR-diode laser supersonic jet spectroscopy of the chiral molecule CDBrClF;Journal of Molecular Spectroscopy;2017-07

3. A combined Gigahertz and Terahertz (FTIR) spectroscopic investigation of meta-D-phenol: observation of tunnelling switching;Molecular Physics;2016-10-01

4. Synchrotron-Based Highest Resolution Terahertz Spectroscopy of the ν24 Band System of 1,2-Dithiine (C4H4S2): A Candidate for Measuring the Parity Violating Energy Difference between Enantiomers of Chiral Molecules;The Journal of Physical Chemistry Letters;2016-09-19

5. High resolution GHz and THz (FTIR) spectroscopy and theory of parity violation and tunneling for 1,2-dithiine (C4H4S2) as a candidate for measuring the parity violating energy difference between enantiomers of chiral molecules;Physical Chemistry Chemical Physics;2016

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