Method of increasing power within an optical cavity with long path lengths
Abstract
A cavity-enhanced absorption spectroscopy instrument has an optical cavity with two or more cavity mirrors, one mirror of which having a hole or other aperture for injecting a light beam, and the same or another mirror of which being partially transmissive to allow exit of light to a detector. A spherical-spherical configuration with at least one astigmatic mirror or a spherical-cylindrical configuration where the spherical mirror could also be astigmatic prevents a reentrant condition wherein the injected beam would prematurely exit the cavity through the aperture. This combination substantially increases the number of passes of the injected beam through a sample volume for sensitive detection of chemical species even in less than ideal conditions including low power laser or LED sources, poor mirror reflectivity or detector noise at the wavelengths of interest, or cavity alignment issues such as vibration or temperature and pressure changes.
- Inventors:
- Issue Date:
- Research Org.:
- ABB, Inc., Cary, NC (United States)
- Sponsoring Org.:
- USDOE
- OSTI Identifier:
- 1426789
- Patent Number(s):
- 9915562
- Application Number:
- 15/235,401
- Assignee:
- ABB, Inc., Cary, NC
- Patent Classifications (CPCs):
-
G - PHYSICS G01 - MEASURING G01J - MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRA-RED, VISIBLE OR ULTRA-VIOLET LIGHT
G - PHYSICS G01 - MEASURING G01N - INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- DOE Contract Number:
- SC0007654
- Resource Type:
- Patent
- Resource Relation:
- Patent File Date: 2016 Aug 12
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 47 OTHER INSTRUMENTATION
Citation Formats
Leen, John Brian, and Bramall, Nathan E. Method of increasing power within an optical cavity with long path lengths. United States: N. p., 2018.
Web.
Leen, John Brian, & Bramall, Nathan E. Method of increasing power within an optical cavity with long path lengths. United States.
Leen, John Brian, and Bramall, Nathan E. Tue .
"Method of increasing power within an optical cavity with long path lengths". United States. https://www.osti.gov/servlets/purl/1426789.
@article{osti_1426789,
title = {Method of increasing power within an optical cavity with long path lengths},
author = {Leen, John Brian and Bramall, Nathan E.},
abstractNote = {A cavity-enhanced absorption spectroscopy instrument has an optical cavity with two or more cavity mirrors, one mirror of which having a hole or other aperture for injecting a light beam, and the same or another mirror of which being partially transmissive to allow exit of light to a detector. A spherical-spherical configuration with at least one astigmatic mirror or a spherical-cylindrical configuration where the spherical mirror could also be astigmatic prevents a reentrant condition wherein the injected beam would prematurely exit the cavity through the aperture. This combination substantially increases the number of passes of the injected beam through a sample volume for sensitive detection of chemical species even in less than ideal conditions including low power laser or LED sources, poor mirror reflectivity or detector noise at the wavelengths of interest, or cavity alignment issues such as vibration or temperature and pressure changes.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {Tue Mar 13 00:00:00 EDT 2018},
month = {Tue Mar 13 00:00:00 EDT 2018}
}
Save to My Library
You must Sign In or Create an Account in order to save documents to your library.
Works referenced in this record:
Tunable source of monochromatic, highly-directional x-rays and a method for producing such radiation
patent, September 1993
- Steinbach, Arden L.
- US Patent Document 5,247,562
Apparatus and method for intracavity sensing of microscopic properties of chemicals
patent, July 1996
- King, David A.; Seher, Jens-Peter
- US Patent Document 5,538,850
Evanescent scanning of biochemical array
patent, May 1997
- King, David A.; Seher, Jens-Peter
- US Patent Document 5,633,724
Method and apparatus for in situ gas concentration measurement
patent, May 2000
- Brand, Joel; Monlux, Garth A.; Zmarzly, Patrick
- US Patent Document 6,064,488
Contaminant identification and concentration determination by monitoring the temporal characteristics of an intracavity laser
patent, June 2000
- Atkinson, George H.; Pilgrim, Jeffrey S.
- US Patent Document 6,075,252
Absorption spectroscopy instrument with off-axis light insertion into cavity
patent, September 2004
- Paul, Joshua B.; Scherer, James J.; O'Keefe, Anthony
- US Patent Document 6,795,190
Cavity-enhanced liquid absorption spectroscopy
patent, January 2005
- O'Keefe, Anthony; Gupta, Manish
- US Patent Document 6,839,140
Spectroscopic breath profile analysis device and uses thereof for facilitating diagnosis of medical conditions
patent, September 2006
- Braun, Charles L.
- US Patent Document 7,101,340
Absorption spectroscopy instrument with increased optical cavity power without resonant frequency build-up
patent, December 2008
- O'Keefe, Anthony; Gupta, Manish; Owano, Thomas
- US Patent Document 7,468,797
Dense pattern multiple pass cells
patent, September 2010
- Silver, Joel A.; Bomse, David S.
- US Patent Document 7,800,751
Cavity ring down system having a common input/output port
patent, March 2011
- Cole, Barrett E.; Cox, James Allen; Marta, Terry
- US Patent Document 7,902,534
Multi-channel optical cell
patent, October 2012
- Majewski, Alexander; Noll, Robert; MacFarlane, Malcolm J.
- US Patent Document 8,299,433
Absorption spectroscopy apparatus and method
patent-application, December 2002
- Daly, James T.; Bodkin, William Andrew
- US Patent Application 10/081655; 20020185603
Method for the precise measurement of the wavelength of light
patent-application, August 2006
- Kachanov, Alexander; Tan, Sze; Paldus, Barbara
- US Patent Application 11/059198; 20060181710
Collimator array
patent-application, February 2008
- Corem, Yossi
- US Patent Application 11/882459; 20080030867
Hollow Waveguide Cavity Ringdown Spectroscopy
patent-application, March 2009
- Dreyer, Chris; Mungas, Greg S.
- US Patent Application 12/041648; 20090059234
Detection Method
patent-application, June 2010
- Ali, Zulfiqur; Seetohul, Lalitesh Nitin; Auger, Vincent David
- US Patent Application 12/517117; 20100141951
Spatially chirped pulses for femtosecond laser ablation through transparent materials
patent-application, December 2011
- Squier, Jeffrey; Vitek, Dawn; Kleinfeld, David
- US Patent Application 13/065778; 20110297651
Hot Gas Temperature Measurements in Gas Turbine Using Tunable Diode Laser
patent-application, March 2012
- Badami, Vivek Venugopal; Hoyte, Scott Mordin; Mitra, Chayan
- US Patent Application 12/880681; 20120060510
Method and Apparatus for Detecting An Analyte
patent-application, May 2014
- McCann, Patrick J.
- US Patent Application 14/067827; 20140117238
Method and System for Use in Monitoring Biological Material
patent-application, April 2015
- Axelrod, Noel; Nutterman, David; Shimoni, Moria
- US Patent Application 14/571489; 20150099274
Cavity Ring-Down Spectroscopic System and Method
patent-application, May 2015
- Alquaity, Awad Bin Saud; Farooq, Aamir
- US Patent Application 14/540410; 20150131094
Astigmatic mirror multipass absorption cells for long-path-length spectroscopy
journal, January 1995
- McManus, J. B.; Kebabian, P. L.; Zahniser, M. S.
- Applied Optics, Vol. 34, Issue 18, p. 3336-3348
Cavity-Enhanced Absorption Measurements Across Broad Absorbance and Reflectivity Ranges
journal, March 2014
- Dasgupta, Purnendu K.; Bhawal, Ruchika P.; Li, Yin-Huan
- Analytical Chemistry, Vol. 86, Issue 8, p. 3727-3734
Simple dense-pattern optical multipass cells
journal, January 2005
- Silver, Joel A.
- Applied Optics, Vol. 44, Issue 31, p. 6545-6556