A quantum cascade laser cw cavity ringdown spectrometer coupled to a supersonic expansion source

A new instrument has been constructed that couples a supersonic expansion source to a continuous wave cavity ringdown spectrometer using a Fabry-Perot quantum cascade laser (QCL). The purpose of the instrument is to enable the acquisition of a cold, rotationally resolved gas phase spectrum of buckmi...

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Veröffentlicht in:	Review of scientific instruments 2010-06, Vol.81 (6), p.063102-063102
Hauptverfasser:	Brumfield, Brian E, Stewart, Jacob T, Widicus Weaver, Susanna L, Escarra, Matthew D, Howard, Scott S, Gmachl, Claire F, McCall, Benjamin J
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creator	Brumfield, Brian E Stewart, Jacob T Widicus Weaver, Susanna L Escarra, Matthew D Howard, Scott S Gmachl, Claire F McCall, Benjamin J
description	A new instrument has been constructed that couples a supersonic expansion source to a continuous wave cavity ringdown spectrometer using a Fabry-Perot quantum cascade laser (QCL). The purpose of the instrument is to enable the acquisition of a cold, rotationally resolved gas phase spectrum of buckminsterfullerene (C(60)). As a first test of the system, high resolution spectra of the nu(8) vibrational band of CH(2)Br(2) have been acquired at approximately 1197 cm(-1). To our knowledge, this is the first time that a vibrational band not previously recorded with rotational resolution has been acquired with a QCL-based ringdown spectrometer. 62 transitions of the three isotopologues of CH(2)Br(2) were assigned and fit to effective Hamiltonians with a standard deviation of 14 MHz, which is smaller than the laser frequency step size. The spectra have a noise equivalent absorption coefficient of 1.4 x 10(-8) cm(-1). Spectral simulations of the band indicate that the supersonic source produces rotationally cold (approximately 7 K) molecules.
doi_str_mv	10.1063/1.3427357
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title	A quantum cascade laser cw cavity ringdown spectrometer coupled to a supersonic expansion source
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