APS March Meeting 2017
Volume 62, Number 4
Monday–Friday, March 13–17, 2017;
New Orleans, Louisiana
Session A29: Optical Frequency Combs - Generation, Metrology & Applications
8:00 AM–11:00 AM,
Monday, March 13, 2017
Room: 292
Sponsoring
Unit:
DLS
Abstract ID: BAPS.2017.MAR.A29.4
Abstract: A29.00004 : A Few Atoms Too Many: Unravelling Molecular Complexities with Frequency Comb Spectroscopy
9:48 AM–10:24 AM
Preview Abstract
Abstract
Author:
Bryce Bjork
(JILA, National Institute of Standards and Technology and University of Colorado, Department of Physics, University of Colorado, Boulder, CO 80309, USA)
Cavity-enhanced frequency comb spectroscopy$^{\mathrm{1}}$ has blossomed
into a widely versatile tool$^{\mathrm{2}}$, allowing for trace gas sensing,
transient absorption spectroscopy, and the study of buffer gas cooled
molecules$^{\mathrm{3}}$. This technique offers the unique and simultaneous
blend of broad spectral bandwidth, high sensitivity, and high spectral
resolution. Recently, we have applied this technique to the important
OH$+$CO$\to $H$+$CO$_{\mathrm{2}}$ reaction, which has long been studied due
to its importance in atmospheric and combustion environments$^{\mathrm{4}}$.
Using this technique in the mid-IR, we simultaneously monitor the real-time
concentrations of the initial reactants, intermediate transient species, and
final products, including for example \textit{trans}-DOCO, \textit{cis}-DOCO, OD, and
CO$_{\mathrm{2}}$ from the deuterated reaction OD$+$CO$\to
$D$+$CO$_{\mathrm{2}}$. By determining the time dependencies of these
transient molecules, we directly quantify fundamental rate constants and
branching yields for the first time. This talk will cover our application of
the frequency comb to chemical kinetics as well as the characterization of
large molecules in a cold Helium buffer gas environment. Finally, I will
discuss the extension of the frequency comb beyond 6 microns.\\
\\In collaboration with: Jun Ye, JILA, National Institute of Standards and Technology and University of Colorado, Department of Physics, University of Colorado, Boulder, CO 80309, USA\\
\\$^{1}$ M. J. Thorpe et al., Broadband cavity ringdown spectroscopy for sensitive and rapid molecular detection. Science 311, 1595-1599 (2006).\newline
$^{2}$ F. Adler et al., Cavity-enhanced direct frequency comb spectroscopy: technology and applications. Annu. Rev. Anal. Chem. 3, 175-205 (2010).\newline
$^{3}$ B. Spaun et al., Continuous probing of cold complex molecules with infrared frequency comb spectroscopy. Nature 533, 517-520 (2016).\newline
$^{4}$ B. J. Bjork et al., Direct Frequency Comb Measurement of OD + CO \rightarrow DOCO Kinetics. Science 354, 444-448 (2016).
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2017.MAR.A29.4