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Applied Spectroscopy Reviews Volume 48, 2013 - Issue 7
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Original Articles

Quantum Cascade Laser Spectrometry Techniques: A New Trend in Atmospheric Chemistry

J. S. Li Department of Atmospheric Chemistry, Max Planck Institute for Chemistry, Mainz, Germany
,
W. Chen Laboratoire de Physicochimie de l’Atmosphère, Universitè du littoral Côte d’Opale, Dunkerque, France
&
H. Fischer Department of Atmospheric Chemistry, Max Planck Institute for Chemistry, Mainz, Germany
Pages 523-559 | Published online: 28 Mar 2013

References

  • Rothman , L. S. , Gordon , I. E. , Barbe , A. , Benner , D. C. , Bernath , P. F , Birk , M. , Boudon , V. , Brown , L.R. , Campargue , A. , Champion , J.-P. , Chance , K. , Coudert , L.H. , Dana , V. , Devi , V.M. , Fally , S. , Flaud , J.-M. , Gamache , R.R. , Goldman , A. , Jacquemart , D. , Kleiner , I. , Lacome , N. , Lafferty , W.J. , Mandin , J.-Y. , Massie , S.T. , Mikhailenko , S.N. , Miller , C.E. , Moazzen-Ahmadi , N. , Naumenko , O.V. , Nikitin , A.V. , Orphal , J. , Perevalov , V.I. , Perrin , A. , Predoi-Cross , A. , Rinsland , C.P. , Rotger , M. , Šimecková , M. , Smith , M.A.H. , Sung , K. , Tashkun , S.A. , Tennyson , J. , Toth , R.A. , Vandaele , A.C. and Vander Auwera , J. 2009 . The HITRAN 2008 molecular spectroscopic database . Journal of Quantitative Spectroscopy and Radiative Transfer , 110 : 533 – 572 .
  • Jacquinet-Husson , N. , Scott , N. A. , Chédin , A. , Crépeau , L. , Armante , R. , Capelle , V. , Orphal , J. , Coustenis , A. , Boonne , C. , Poulet-Crovisier , N. , Barbe , A. , Birk , M. , Brown , L.R. , Camy-Peyret , C. , Claveau , C. , Chance , K. , Christidis , N. , Clerbaux , C. , Coheur , I, P.F. , Dana , V. , Daumont , L. , De Backer-Barilly , M.R. , Di Lonardo , G. , Flaud , J.M. , Goldman , A. , Hamdouni , A. , Hess , M. , Hurley , M.D. , Jacquemart , D. , Kleiner , I. , Köpke , P. , Mandin , J.Y. , Massie , S. , Mikhailenko , S. , Nemtchinov , V. , Nikitin , A. , Newnham , D. , Perrin , A. , Perevalov , V.I. , Pinnock , S. , Régalia-Jarlot , L. , Rinsland , C.P. , Rublev , A. , Schreier , F. , Schult , L. , Smith , K.M. , Tashkun , S.A. , Teffo , J.L. , Toth , R.A. , Tyuterev , VI G. , Vander Auwera , J. , Varanasi , P. and Wagner , G. 2008 . The GEISA spectroscopic database: Current and future archive for Earth and planetary atmosphere studies . Journal of Quantitative Spectroscopy and Radiative Transfer , 109 : 1043 – 1059 .
  • Kazarinov , R. F. and Suris , R. A. 1971 . Possibility of the amplification of electromagnetic waves in a semiconductor with a superlattice . Sov. Phys. Semiconduct. , 5 : 707 – 709 .
  • Faist , J. , Capasso , F. , Sivco , D. L. , Sirtori , C. , Hutchinson , A. L. and Cho , A. Y. 1994 . Quantum cascade laser . Science , 264 : 553 – 556 .
  • Faist , J. , Capasso , F. , Sirtori , C. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. , Chu , S. N.G. and Cho , A. Y. 1996 . High power mid-infrared (λ ∼ 5 μm) quantum cascade lasers operating above room temperature . Appl. Phys. Lett. , 68 : 3680 – 3682 .
  • Bandyopadhyay , N. , Slivken , S. , Bai , Y. and Razeghi , M. 2012 . High power, continuous wave, room temperature operation of λ ∼ 3.4 μm and λ ∼ 3.55  μm InP-based quantum cascade lasers . Appl. Phys. Lett. , 100 : 212104
  • Colombelli , R. , Capasso , F. , Gmachl , C. , Hutchinson , A. L. , Sivco , D. L. , Tredicucci , A. , Wanke , M. C. , Sergent , A. M. and Cho , A. Y. 2001 . Far-infrared surface-plasmon quantum-cascade lasers at 21.5 μm and 24 μm wavelengths . Appl. Phys. Lett. , 78 : 2620 – 2622 .
  • Bai , Y. , Darvish , S. R. , Slivken , S. , Zhang , W. , Evans , A. , Nguyen , J. and Razeghi , M. 2008 . Room temperature continuous wave operation of quantum cascade lasers with watt-level optical power . Appl. Phys. Lett. , 92 : 101105
  • Lyakh , A. , Pflügl , C. , Diehl , L. , Wang , Q. J. , Capasso , F. , Wang , X. J. , Fan , J. Y. , Tanbun-Ek , T. , Maulini , R. , Tsekoun , A. , Go , R. , Kumar , N. and Patel , C. 2008 . 1.6 W high wall plug efficiency, continuous-wave room temperature quantum cascade laser emitting at 4.6 μm . Appl. Phys. Lett. , 92 : 111110
  • Hofstetter , D. , Beck , M. , Aellen , T. , Faist , J. , Oesterle , U. , Ilegems , M. , Gini , E. and Melchior , H. 2001 . Continuous wave operation of a 9.3 μm quantum cascade laser on a Peltier cooler . Appl. Phys. Lett. , 78 : 1964 – 1966 .
  • Rochat , M. , Hofstetter , D. , Beck , M. and Faist , J. 2001 . Long-wavelength (λ ≈ 16 μm), room-temperature, single-frequency quantum-cascade lasers based on a bound-to-continuum transition . Appl. Phys. Lett. , 79 : 4271 – 4273 .
  • Faist , J. , Gmachl , C. , Capasso , F. , Sirtori , C. , Silvco , D. L. , Baillargeon , J. N. and Cho , A. Y. 1997 . Distributed feedback quantum cascade lasers . Appl. Phys. Lett. , 70 : 2670 – 2672 .
  • Namjou , K. , Cai , S. , Whittaker , E. A. , Faist , J. , Gmachl , C. , Capasso , F. , Sivco , D. L. and Cho , A. Y. 1998 . Sensitive absorption spectroscopy with a room-temperature distributed-feedback quantum-cascade laser . Optic. Lett. , 23 : 219 – 221 .
  • Sharpe , S. W. , Kelly , J. F. , Hartman , J. S. , Gmachl , C. , Capasso , F. , Sivco , D. L. , Baillargeon , J. N. and Cho , A. Y. 1998 . High-resolution (Doppler-limited) spectroscopy using quantum-cascade distributed feedback lasers . Optic. Lett. , 23 : 1396 – 1398 .
  • Amanti , M. I. , Fischer , M. , Scalari , G. , Beck , M. and Faist , J. 2009 . Low-divergence single-mode terahertz quantum cascade laser . Nat. Photon. , 3 : 586 – 590 .
  • Hancock , G. , Ritchie , G. , van Helden , J.-P. , Walker , R. and Weidmann , D. 2010 . Applications of midinfrared quantum cascade lasers to spectroscopy . Opt. Eng. , 49 : 111121
  • Maulini , R. , Beck , M. , Faist , J. and Gini , E. 2004 . Broadband tuning of external cavity bound-to-continuum quantum-cascade lasers . Appl. Phys. Lett. , 84 : 1659 – 1653 .
  • Pushkarsky , M. , Tsekoun , A. , Dunayevskiy , I. G. , Go , R. , Patel , N. and Kumar , C. 2006 . Sub-parts-per-billion level detection of NO2 using room temperature quantum-cascade lasers . Proc. Natl. Acad. Sci. , 103 : 10846 – 10849 .
  • Hugi , A. , Terazzi , R. , Bonetti , Y. , Wittmann , A. , Fischer , M. , Beck , M. , Faist , J. and Gini , E. 2009 . External cavity quantum cascade laser tunable from 7.6 to 11.4 μm . Appl. Phys. Lett. , 95 : 061103
  • Fujita , K. , Furuta , S. , Sugiyama , A. , Ochiai , T. , Ito , A. , Dougakiuchi , T. , Edamura , T. and Yamanishi , M. 2011 . High-performance quantum cascade lasers with wide electroluminescence (∼600 cm−1), operating in continuous-wave above 100°C . Appl. Phys. Lett. , 98 : 231102
  • Rao , G. N. and Karpf , A. 2011 . External cavity tunable quantum cascade lasers and their applications to trace gas monitoring . Appl. Optic. , 50 : A100 – A115 .
  • Lambrecht , A. 2005 . Quantum cascade lasers, systems, and applications in Europe . Proc. SPIE , 5732 : 122 – 133 .
  • Gmachl , C. , Capasso , F. , Sivco , D. L. and Cho , A. Y. 2001 . Recent progress in quantum cascade lasers and applications . Rep. Progr. Phys. , 64 : 1533 – 1601 .
  • Capasso , F. 2010 . High-performance midinfrared quantum cascade lasers . Opt. Eng. , 49 : 111102
  • McManus , J. B. , Shorter , J. H. , Nelson , D. D. , Zahniser , M. S. , Glenn , D. E. and McGovern , R. M. 2008 . Pulsed quantum cascade laser instrument with compact design for rapid, high sensitivity measurements of trace gases in air . Appl. Phys. B , 92 : 387 – 392 .
  • Kosterev , A. , Wysocki , G. , Bakhirkin , Y. , So , S. , Lewicki , R. , Tittel , F. and Curl , R. F. 2008 . Application of quantum cascade lasers to trace gas analysis . Appl. Phys. B , 90 : 165 – 176 .
  • Joly , L. , Zéninari , V. , Parvitte , B. , Weidmann , D. , Courtois , D. , Bonetti , Y. , Aellen , T. , Beck , M. , Faist , J. and Hofstetter , D. 2003 . Spectroscopic study of the v1 band of SO2 using a continuous-wave DFB QCL at 9.1 μm . Appl. Phys. B , 77 : 703 – 706 .
  • Wang , L. and Sharples , T. R. 2012 . Intrapulse quantum cascade laser spectroscopy: Pressure induced line broadening and shifting in the v6 band of formaldehyde . Appl. Phys. B , 108 : 427 – 435 .
  • Gagliardi , G. , Tamassia , F. , De Natale , P. , Gmachl , C. , Capasso , F. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. and Cho , A. Y. 2002 . Sensitive detection of methane and nitrous oxide isotopomers using a continuous wave quantum cascade laser . Eur. Phys. J. Atom. Mol. Opt. Phys. , 19 : 327 – 331 .
  • Tuzson , B. , Mohn , J. , Zeeman , M. J. , Werner , R. A. , Eugster , W. , Zahniser , M. S. , Nelson , D. D. , McManus , J. B. and Emmenegger , L. 2008 . High precision and continuous field measurements of δ13C and δ18O in carbon dioxide with a cryogen-free QCLAS . Appl. Phys. B , 92 : 451 – 458 .
  • Moeskops , B. W.M. , Naus , H. , Cristescu , S. M. and Harren , F. J.M. 2006 . Quantum cascade laser-based carbon monoxide detection on a second time scale from human breath . Appl. Phys. B , 82 : 649 – 654 .
  • McCurdy , M. R. , Bakhirkin , Y. , Wysocki , G. , Lewicki , R. and Tittel , F. K. 2007 . Recent advances of laser-spectroscopy-based techniques for applications in breath analysis . J. Breath Res. , 1 : 014001
  • Stancu , G. D. , Lang , N. , Röpcke , J. , Reinicke , M. , Steinbach , A. and Wege , S. 2007 . In situ monitoring of silicon plasma etching using a quantum cascade laser arrangement . Chemical Vapor Deposition , 13 : 351 – 360 .
  • Röpcke , J. , Lombardi , G. , Rousseau , A. and Davies , P. B. 2006 . Application of mid-infrared tuneable diode laser absorption spectroscopy to plasma diagnostics: A review . Plasma Sourc. Sci. Tech. , 15 : S148 – S168 .
  • Vanderover , J. , Wang , W. and Oehlschlaeger , M. A. 2011 . A carbon monoxide and thermometry sensor based on mid-IR quantum-cascade laser wavelength-modulation absorption spectroscopy . Appl. Phys. B , 103 : 959 – 966 .
  • Chao , X. , Jeffries , J. B. and Hanson , R. K. 2012 . Wavelength-modulation-spectroscopy for real-time, in situ NO detection in combustion gases with a 5.2 μm quantum-cascade laser . Appl. Phys. B , 106 : 987 – 997 .
  • Weidmann , D. , Tittel , F. K. , Aellen , T. , Beck , M. , Hofstetter , D. , Faist , J. and Blaser , S. 2004 . Mid-infrared trace-gas sensing with a quasi continuous-wave Peltier-cooled distributed feedback quantum cascade laser . Appl. Phys. B , 79 : 907 – 913 .
  • Vanderover , J. and Oehlschlaeger , M. A. 2010 . A mid-infrared scanned-wavelength laser absorption sensor for carbon monoxide and temperature measurements from 900 to 4000 K . Appl. Phys. B , 99 : 353 – 362 .
  • Miyano , S. and Tonokura , K. 2011 . Measurements of nitrogen-broadening coefficients in the ν3 band of the hydroperoxyl radical using a continuous wave quantum cascade laser . J. Mol. Spectros. , 265 : 47 – 51 .
  • Cui , X. , Lengignon , C. , Wu , T. , Zhao , W. , Wtsocki , G. , Fertein , E. , Coeur , C. , Cassez , A. , Croisé , L. , Chen , W. , Wang , Y. , Zhang , W. , Gao , X. , Liu , W. , Zhang , Y. and Dong , F. 2012 . Photonic sensing of the atmosphere by absorption spectroscopy . Journal of Quantitative Spectroscopy and Radiative Transfer , 113 : 1300 – 1316 .
  • Hofstetter , D. , Beck , M. , Faist , J. , Nägele , M. and Sigrist , M. W. 2001 . Photoacoustic spectroscopy with quantum cascade distributed-feedback lasers . Optic. Lett. , 26 : 887 – 889 .
  • Elia , A. , Franco , C. D. , Lugarà , P. M. and Scamarcio , G. 2006 . Photoacoustic spectroscopy with quantum cascade lasers for trace gas detection . Sensors , 6 : 1411 – 1419 .
  • Lima , J. P. , Vargas , H. , Miklós , A. , Angelmahr , M. and Hess , P. 2006 . Photoacoustic detection of NO2 and N2O using quantum cascade lasers . Appl. Phys. B , 85 : 279 – 284 .
  • Da Silva , M. G. , Vargas , H. , Miklós , A. and Hess , P. 2004 . Photoacoustic detection of ozone using a quantum cascade laser . Appl. Phys. B , 78 : 677 – 680 .
  • Patel , C. K.N. 2008 . Laser photoacoustic spectroscopy helps fight terrorism: High sensitivity detection of chemical warfare agent and explosives . Eur. Phys. J. Spec. Top. , 153 : 1 – 18 .
  • Elia , A. , Franco , C. D. , Spagnolo , V. , Pietro , P. M. and Scamarcio , G. 2009 . Quantum cascade laser–based photoacoustic sensor for trace detection of formaldehyde gas . Sensors , 9 : 2697 – 2705 .
  • Rocha , M. , Sthel , M. , Lima , G. , Da Silva , M. , Schramm , D. , Miklós , A. and Vargas , H. 2010 . A sulfur hexafluoride sensor using quantum cascade and CO2 laser–based photoacoustic spectroscopy . Sensors , 10 : 9359 – 9368 .
  • Holthoff , E. , Bender , J. , Pellegrino , P. and Fisher , A. 2010 . Quantum cascade laser–based photoacoustic spectroscopy for trace vapor detection and molecular discrimination . Sensors , 10 : 1986 – 2002 .
  • Liu , W. , Wang , L. , Li , L. , Liu , J. , Liu , F.-Q. and Wang , Z. 2011 . Fast simultaneous measurement of multi-gases using quantum cascade laser photoacoustic spectroscopy . Appl. Phys. B , 103 : 743 – 747 .
  • Spagnolo , V. , Kosterev , A. A. , Dong , L. , Lewicki , R. and Tittel , F. K. 2010 . NO trace gas sensor based on quartz enhanced photoacoustic spectroscopy and external cavity quantum cascade laser . Appl. Phys. B , 100 : 125 – 130 .
  • Lewicki , R. , Wysocki , G. , Kosterev , A. A. and Tittel , F. K. 2007 . QEPAS based detection of broadband absorbing molecules using a widely tunable, cw quantum cascade laser at 8.4 μm . Optic. Express , 15 : 7357 – 7366 .
  • Dong , L. , Lewicki , R. , Liu , K. , Buerki , P. R. , Weida , M. J. and Tittel , F. K. 2012 . Ultra-sensitive carbon monoxide detection by using EC-QCL based quartz-enhanced photoacoustic spectroscopy . Appl. Phys. B , 107 : 275 – 283 .
  • Rao , G. N. and Karpf , A. 2010 . High sensitivity detection of NO2 employing cavity ringdown spectroscopy and an external cavity continuously tunable quantum cascade laser . Appl. Optic. , 49 : 4906 – 4914 .
  • Harb , C. C. , Boyson , T. K. , Kallapur , A. G. , Petersen , I. R. , Calzada , M. E. , Spence , T. G. , Kirkbride , K. P. and Moore , D. S. 2012 . Pulsed quantum cascade laser–based CRDS substance detection: Real-time detection of TNT . Optic. Express , 20 : 15489 – 15502 .
  • Maisons , G. , Carbajo , P. G. , Carras , M. and Romanini , D. 2010 . Optical-feedback cavity-enhanced absorption spectroscopy with a quantum cascade laser . Optic. Lett. , 35 : 3607 – 3609 .
  • Hamilton , D. J. and Orr-Ewing , A. J. 2011 . A quantum cascade laser–based optical feedback cavity-enhanced absorption spectrometer for the simultaneous measurement of CH4 and N2O in air . Appl. Phys. B , 102 : 879 – 890 .
  • Bakhirkin , Y. A. , Kosterev , A. A. , Roller , C. , Curl , R. F. and Tittel , F. K. 2004 . Mid-infrared quantum cascade laser based off-axis integrated cavity output spectroscopy for biogenic nitric oxide detection . Appl. Optic. , 43 : 2257 – 2266 .
  • Bakhirkin , Y. A. , Kosterev , A. A. , Curl , R. F. , Tittel , F. K. , Yarekha , D. A. , Hvozdara , L. , Giovannini , M. and Faist , J. 2006 . Sub-ppbv nitric oxide concentration measurements using cw thermoelectrically cooled quantum cascade laser–based integrated cavity output spectroscopy . Appl. Phys. B , 82 : 149 – 154 .
  • Mccurdy , M. R. , Bakhirkin , Y. A. and Tittel , F. K. 2006 . Quantum cascade laser–based integrated cavity output spectroscopy of exhaled nitric oxide . Appl. Phys. B , 85 : 445 – 452 .
  • McCurdy , M. R. , Bakhirkin , Y. A. , Wysocki , G. and Tittel , F. K. 2007 . Performance of an exhaled nitric oxide and carbon dioxide sensor using quantum cascade laser–based integrated cavity output spectroscopy . J. Biomed. Optic. , 12 : 1 – 9 .
  • Rao , G. N. and Karpf , A. 2011 . Extremely sensitive detection of NO2 employing off-axis integrated cavity output spectroscopy coupled with multiple-line integrated absorption spectroscopy . Appl. Optic. , 50 : 1915 – 1924 .
  • Menzel , L. , Kosterev , A. A. , Tittel , F. K. , Gmachl , C. , Capasso , F. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. , Cho , A. Y. and Urban , W. 2001 . Spectroscopic detection of biological NO with a quantum cascade laser . Appl. Phys. B , 72 : 859 – 863 .
  • Roller , C. , Kosterev , A. A. , Tittel , F. K. , Uehara , K. , Gmachl , C. and Sivco , D. L. 2003 . Carbonyl sulfide detection with a thermoelectrically cooled mid-infrared quantum cascade laser . Optic. Lett. , 28 : 2052 – 2054 .
  • Weidmann , D. , Kosterev , A. A. , Roller , C. , Curl , R. F. , Fraser , M. P. and Tittel , F. K. 2004 . Monitoring of ethylene by a pulsed quantum cascade laser . Appl. Optic. , 43 : 3329 – 3334 .
  • Lee , B. H. , Wood , E. C. , Zahniser , M. S. , McManus , J. B. , Nelson , D. D. , Herndon , S. C. , Santoni , G. W. , Wofsy , S. C. and Munger , J. W. 2011 . Simultaneous measurements of atmospheric HONO and NO2 via absorption spectroscopy using tunable mid-infrared continuous-wave quantum cascade lasers . Appl. Phys. B , 102 : 417 – 423 .
  • Wysocki , G. , Kosterev , A. A. and Tittel , F. K. 2005 . Spectroscopic trace-gas sensor with rapidly scanned wavelengths of a pulsed quantum cascade laser for in situ NO monitoring of industrial exhaust systems . Appl. Phys. B , 80 : 617 – 625 .
  • Cristescu , S. M. , Persijn , S. T. , te Lintel Hekkert , S. and Harren , F. J.M. 2008 . Laser-based systems for trace gas detection in life sciences . Appl. Phys. B , 92 : 343 – 349 .
  • Hancock , G. , van Helden , J. H. , Peverall , R. , Ritchie , G. A.D. and Walker , R. J. 2009 . Direct and wavelength modulation spectroscopy using a cw external cavity quantum cascade laser . Appl. Phys. Lett. , 94 : 201110
  • Cristescu , S. M. , Marchenko , D. , Mandon , J. , Hebelstrup , K. , Griffith , G. W. , Mur , L. A.J. and Harren , F. J.M. 2012 . Spectroscopic monitoring of NO traces in plants and human breath: Applications and perspectives . Appl. Phys. B , doi: 10.1007/s00340-012-5050-5
  • Ganser , H. , Horstjann , M. , Suschek , C. V. , Hering , P. and Mürtz , M. 2004 . Online monitoring of biogenic nitric oxide with a QC laser–based Faraday modulation technique . Appl. Phys. B , 78 : 513 – 517 .
  • Fritsch , T. , Horstjann , M. , Sabana , D. H. , Hering , P. and Mürtz , M. 2008 . Magnetic Faraday modulation spectroscopy of the 1–0 band of 14NO and 15NO . Appl. Phys. B , 93 : 713 – 723 .
  • Sabana , H. , Fritsch , T. , Onana , M. B. , Bouba , O. , Hering , P. and Mürtz , M. 2009 . Simultaneous detection of 14NO and 15NO using Faraday modulation spectroscopy . Appl. Phys. B , 96 : 535 – 544 .
  • Kluczynski , P. , Lundqvist , S. , Westberg , J. and Axner , O. 2011 . Faraday rotation spectrometer with sub-second response time for detection of nitric oxide using a cw DFB quantum cascade laser at 5.33 μm . Appl. Phys. B , 103 : 451 – 459 .
  • White , J. U. 1942 . Long optical paths of large aperture . J. Opt. Soc. Am. , 32 : 285 – 288 .
  • Herriott , D. and Schulte , H. J. 1965 . Folded optical delay lines . Appl. Optic. , 4 : 883 – 891 .
  • Manninen , A. , Tuzson , B. , Looser , H. , Bonetti , Y. and Emmenegger , L. 2012 . Versatile multipass cell for laser spectroscopic trace gas analysis . Appl. Phys. B , doi: 10.1007/s00340-012-4964-2
  • Fried , A. and Richter , D. 2006 . “ Infrared absorption spectroscopy ” . In Analytical Techniques for Atmospheric Measurement , Edited by: Heard , D. E. 72 – 146 . Oxford , , UK : Blackwell Publishing .
  • Berden , G. and Engeln , R. 2009 . Cavity Ring-Down Spectroscopy: Techniques and Applications , Oxford , , UK : Wiley-Blackwell Publishing .
  • Werle , P. 1998 . A review of recent advances in semiconductor laser based gas monitors . Spectrochim. Acta A , 54 : 197 – 236 .
  • Berden , G. , Peeters , R. and Meijer , G. 2000 . Cavity ring-down spectroscopy: Experimental schemes and applications . Int. Rev. Phys. Chem. , 19 : 565 – 607 .
  • Li , J. S. , Chen , W. D. and Yu , B. L. 2011 . Recent progress on infrared photoacoustic spectroscopy techniques . Appl. Spectros. Rev. , 46 : 440 – 471 .
  • Silver , J. A. 1992 . Frequency-modulation spectroscopy for trace species detection: Theory and comparison among experimental methods . Appl. Optic. , 31 : 707 – 717 .
  • Tittel , F. K. , Richter , D. and Fried , A. 2003 . Mid-infrared laser applications in spectroscopy . Top. Appl. Phys. , 89 : 445 – 510 .
  • Mann , Ch. , Yang , Q. K. , Fuchs , F. , Bronner , W. , Kiefer , R. , Köhler , K. , Schneider , H. , Kormann , R. , Fischer , H. , Gensty , T. and Elsäßer , W. 2003 . Quantum cascade lasers for the mid-infrared spectral range: devices and applications . Adv. Solid State Phys. , 43 : 351 – 368 .
  • Jiménez , R. , Herndon , S. , Shorter , J. H. , Nelson , D. D. , McManus , J. B. and Zahniser , M. S. 2005 . Atmospheric trace gas measurements using a dual quantum-cascade laser mid-infrared absorption spectrometer . Proc. SPIE , 5738 : 318 – 331 .
  • Duxbury , G. , Langford , N. , McCulloch , M. T. and Wright , S. 2005 . Quantum cascade semiconductor infrared and far-infrared lasers: From trace gas sensing to non-linear optics . Chem. Soc. Rev. , 34 : 921 – 934 .
  • Tittel , F. K. , Bakhirkin , Y. , Kosterev , A. and Wysocki , G. 2006 . Recent advances in trace gas detection using quantum and interband cascade lasers . Rev. Laser Eng. , 34 : 275 – 282 .
  • Risby , T. H. and Tittel , F. K. 2010 . Current status of midinfrared quantum and interband cascade lasers for clinical breath analysis . Opt. Eng. , 49 : 111123
  • Curl , R. F. , Capasso , F. , Gmachl , C. , Kosterev , A. A. , McManus , B. , Lewicki , R. , Pusharsky , M. , Wysocki , G. and Tittel , F. K. 2010 . Quantum cascade lasers in chemical physics . Chem. Phys. Lett. , 487 : 1 – 20 .
  • Lee , X. , Massman , W. and Law , B. 2004 . Handbook of Micrometeorology: A Guide for Surface Flux Measurement and Analysis , Dordrecht, The Netherlands : Kluwer Academic Publishers .
  • Burba , G. G. and Anderson , D. J. 2010 . A Brief Practical Guide to Eddy Covariance Flux Measurements: Principles and Workflow Examples for Scientific and Industrial Applications , Lincoln , NE : LI-COR Biosciences .
  • Saleska , S. R. , Shorter , J. H. , Herndon , S. , Jiménez , R. , McManus , J. B. , Munger , J. W. , Nelson , D. D. and Zahniser , M. S. 2006 . What are the instrumentation requirements for measuring the isotopic composition of net ecosystem exchange of CO2 using eddy covariance methods? . Isot. Environ. Health Stud. , 42 : 115 – 133 .
  • Kroon , P. S. , Hensen , A. , Jonker , H. J.J. , Zahniser , M. S. , van't Veen , W. H. and Vermeulen , A. T. 2007 . Suitability of quantum cascade laser spectroscopy for CH4 and N2O eddy covariance flux measurements . Biogeosciences , 4 : 715 – 728 .
  • Tuzson , B. , Hiller , R. V. , Zeyer , K. , Eugster , W. , Neftel , A. , Ammann , C. and Emmenegger , L. 2010 . Field intercomparison of two optical analyzers for CH4 eddy covariance flux measurements . Atmos. Meas. Tech. , 3 : 1519 – 1531 .
  • Whitehead , J. D. , Twigg , M. , Famulari , D. , Nemitz , E. , Sutton , M. A. , Gallagher , M. W. and Fowler , D. 2008 . Evaluation of laser absorption spectroscopic techniques for eddy covariance flux measurements of ammonia . Environ. Sci. Tech. , 42 : 2041 – 2046 .
  • Sturm , P. , Eugster , W. and Knohl , A. 2012 . Eddy covariance measurements of CO2 isotopologues with a quantum cascade laser absorption spectrometer . Agr. Forest Meteorol. , 152 : 73 – 82 .
  • Santoni , G. W. , Lee , B. H. , Goodrich , J. P. , Varner , R. K. , Crill , P. M. , McManus , J. B. , Nelson , D. D. , Zahniser , M. S. and Wofsy , S. C. 2012 . Mass fluxes and isofluxes of methane (CH4) at a New Hampshire fen measured by a continuous wave quantum cascade laser spectrometer . J. Geophys. Res. , 117 : D10301
  • Wofsy , S. C. and the HIPPO Science Team . 2011 . HIAPER pole-to-pole observations (HIPPO): Fine grained, global scale measurements of climatically important atmospheric gases and aerosols . Phil. Trans. Roy. Soc. Lond. , 369 : 2073 – 2086 .
  • Keppel-Aleks , G. , Wennberg , P. O. , Washenfelder , R. A. , Wunch , D. , Schneider , T. , Toon , G. C. , Andres , R. J. , Blavier , J.-F. , Connor , B. , Davis , K. J. , Desai , A. R. , Messerschmidt , J. , Notholt , J. , Roehl , C. M. , Sherlock , V. , Stephens , B. B. , Vay , S. A. and Wofsy , S. C. 2012 . The imprint of surface fluxes and transport on variations in total column carbon dioxide . Biogeosciences , 9 : 875 – 891 .
  • McManus , J. B. , Zahniser , M. S. , Nelson , D. D. , Williams , L. R. and Kolb , C. E. 2002 . Infrared laser spectrometer with balanced absorption for measurements of isotopic ratios of carbon gases . Spectrochim. Acta A , 58 : 2465 – 2479 .
  • Wu , T. , Chen , W. , Kerstel , E. , Fertein , E. , Gao , X. , Koeth , J. , Rößner , K. and Brückner , D. 2010 . Kalman filtering real-time measurements of H2O isotopologue ratios by laser absorption spectroscopy at 2.73 μm . Optic. Lett. , 35 : 634 – 636 .
  • Kosterev , A. A. , Curl , R. F. , Tittel , F. K. , Gmachl , C. , Capasso , F. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. and Cho , A. Y. 1999 . Methane concentration and isotopic composition measurements with a mid-infrared quantum-cascade laser . Optic. Lett. , 24 : 1762 – 1764 .
  • Gagliardi , G. , Tamassia , F. , De Natale , P. , Gmachl , C. , Capasso , F. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. and Cho , A. Y. 2002 . Sensitive detection of methane and nitrous oxide isotopomers using a continuous wave quantum cascade laser . Eur. Phys. J. Atom. Mol. Opt. Phys. , 19 : 327 – 331 .
  • Gagliardi , G. , Borri , S. , Tamassia , F. , Capasso , F. , Gmachl , C. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. and Cho , A. Y. 2005 . A frequency-modulated quantum cascade laser for spectroscopy of CH4 and N2O isotopomers . Isot. Environ. Health Stud. , 41 : 313 – 321 .
  • Nelson , D. D. , McManus , J. B. , Urbanski , S. , Herndon , S. and Zahniser , M. S. 2004 . High precision measurements of atmospheric nitrous oxide and methane using thermoelectrically cooled mid-infrared quantum cascade lasers and detectors . Spectrochim. Acta A , 60 : 3325 – 3335 .
  • Weidmann , D. , Wysocki , G. , Oppenheimer , C. and Tittel , F. K. 2005 . Development of a compact quantum cascade laser spectrometer for field measurements of CO2 isotopes . Appl. Phys. B , 80 : 255 – 260 .
  • McManus , J. B. , Nelson , D. D. , Shorter , J. H. , Jiménez , R. , Herndon , S. , Saleska , S. and Zahniser , M. S. 2005 . A high precision pulsed QCL spectrometer for measurements of stable isotopes of carbon dioxide . J. Mod. Optic. , 52 : 2309 – 2321 .
  • McManus , J. B. , Nelson , D. D. and Zahniser , M. S. 2010 . Long-term continuous sampling of 12CO2, 13CO2 and 12C18O16O in ambient air with a quantum cascade laser spectrometer . Isot. Environ. Health Stud. , 46 : 49 – 63 .
  • Wada , R. , Pearce , J. K. , Nakayama , T. , Matsumi , Y. , Hiyama , T. , Inoue , G. and Shibata , T. 2011 . Observation of carbon and oxygen isotopic compositions of CO2 at an urban site in Nagoya using mid-IR laser absorption spectroscopy . Atmos. Environ. , 45 : 1168 – 1174 .
  • Tuzson , B. , Zeeman , M. J. , Zahniser , M. S. and Emmenegger , L. 2008 . Quantum cascade laser based spectrometer for in situ stable carbon dioxide isotope measurements . Infrared Phys. Tech. , 51 : 198 – 206 .
  • Tuzson , B. , Mohn , J. , Zeeman , M. J. , Werner , R. A. , Eugster , W. , Zahniser , M. S. , Nelson , D. D. , McManus , J. B. and Emmenegger , L. 2008 . High precision and continuous field measurements of δ13C and δ18O in carbon dioxide with a cryogen-free QCLAS . Appl. Phys. B , 92 : 451 – 458 .
  • Nelson , D. D. , McManus , J. B. , Herndon , S. C. , Zahniser , M. S. , Tuzson , B. and Emmenegger , L. 2008 . New method for isotopic ratio measurements of atmospheric carbon dioxide using a 4.3 μm pulsed quantum cascade laser . Appl. Phys. B , 90 : 301 – 309 .
  • Kammer , A. , Tuzson , B. , Emmenegger , L. , Knohl , A. , Mohn , J. and Hagedorn , F. 2011 . Application of a quantum cascade laser–based spectrometer in a closed chamber system for real-time δ13C and δ18O measurements of soil-respired CO2 . Agr. Forest Meteorol. , 151 : 39 – 48 .
  • Tuzson , B. , Henne , S. , Brunner , D. , Steinbacher , M. , Mohn , J. , Buchmann , B. and Emmenegger , L. 2011 . Continuous isotopic composition measurements of tropospheric CO2 at Jungfraujoch (3580 ma.s.l.), Switzerland: Real-time observation of regional pollution events . Atmos. Chem. Phys. , 11 : 1685 – 1696 .
  • Waechter , H. , Mohn , J. , Tuzson , B. , Emmenegger , L. and Sigrist , M. W. 2008 . Determination of N2O isotopomers with quantum cascade laser based absorption spectroscopy . Optic. Express , 16 : 9239 – 9244 .
  • Mohn , J. , Guggenheim , C. , Tuzson , B. , Vollmer , M. K. , Toyoda , S. , Yoshida , N. and Emmenegger , L. 2010 . A liquid nitrogen–free preconcentration unit for measurements of ambient N2O isotopomers by QCLAS . Atmos. Meas. Tech. , 3 : 609 – 618 .
  • Mohn , J. , Tuzson , B. , Manninen , A. , Yoshida , N. , Toyoda , S. , Brand , W. A. and Emmenegger , L. 2012 . Site selective real-time measurements of atmospheric N2O isotopomers by laser spectroscopy . Atmos. Meas. Tech. , 5 : 1601 – 1609 .
  • Joly , L. , Zéninari , V. , Parvitte , B. , Courtois , D. and Durry , G. 2006 . Water–vapor isotope ratio measurements in air with a quantum-cascade laser spectrometer . Optic. Lett. , 31 : 143 – 145 .
  • Joly , L. , Parvitte , B. , Zéninari , V. , Courtois , D. and Durry , G. 2006 . A spectroscopic study of water vapor isotopologues H2 16O, H2 18O and HDO using a continuous wave DFB quantum cascade laser in the 6.7 μm region for atmospheric applications . Journal of Quantitative Spectroscopy and Radiative Transfer , 102 : 129 – 138 .
  • Kasyutich , V. L. , Holdsworth , R. J. and Martin , P. A. 2009 . In situ vehicle engine exhaust measurements of nitric oxide with a thermoelectrically cooled, cw DFB quantum cascade laser . J. Phys. Conf. , 157 : 012006
  • Weber , W. H. , Remillard , J. T. , Chase , R. E. , Richert , J. F. , Capasso , F. , Gmachl , C. , Hutchinson , A. L. , Sivco , D. L. , Baillargeon , J. N. and Cho , A. Y. 2002 . Using a wavelength-modulated quantum cascade laser to measure NO concentrations in the parts-per-billion range for vehicle emissions certification . Appl. Spectros. , 56 : 706 – 714 .
  • Weidmann , D. , Kosterev , A. A. , Roller , C. , Curl , R. F. , Fraser , M. P. and Tittel , F. K. 2004 . Monitoring of ethylene by a pulsed quantum cascade laser . Appl. Optic. , 43 : 3329 – 3334 .
  • Michel , A. P.M. , Liu , P. Q. , Yeung , J. K. , Corrigan , P. , Baeck , M. L. , Wang , Z. , Day , T. , Moshary , F. , Gmachl , C. F. and Smith , J. A. 2010 . Quantum cascade laser open-path system for remote sensing of trace gases in Beijing, China . Opt. Eng. , 49 : 111125
  • Tang , Y. , Liu , W. , Kan , R. , Liu , J. , He , Y. , Zhang , Y. , Xu , Zh. , Ruan , J. and Geng , H. 2011 . Measurements of NO and CO in Shanghai urban atmosphere by using quantum cascade lasers . Optic. Express , 19 : 20224 – 20232 .
  • Gong , L. , Lewicki , R. , Griffin , R. J. , Flynn , J. H. , Lefer , B. L. and Tittel , F. K. 2011 . Atmospheric ammonia measurements in Houston, TX using an external-cavity quantum cascade laser–based sensor . Atmos. Chem. Phys. , 11 : 9721 – 9733 .
  • Von Bobrutzki , K. , Braban , C. F. , Famulari , D. , Jones , S. K. , Blackall , T. , Smith , T. E.L. , Blom , M. , Coe , H. , Gallagher , M. , Ghalaieny , M. , McGillen , M. R. , Percival , C. J. , Whitehead , J. D. , Ellis , R. , Murphy , J. , Mohacsi , A. , Pogany , A. , Junninen , H. , Rantanen , S. , Sutton , M. A. and Nemitz , E. 2010 . Field inter-comparison of eleven atmospheric ammonia measurement techniques . Atmos. Meas. Tech. , 3 : 91 – 112 .
  • Yamamoto , Y. , Sumizawa , H. , Yamada , H. and Tonokura , K. 2011 . Real-time measurement of nitrogen dioxide in vehicle exhaust gas by mid-infrared cavity ring-down spectroscopy . Appl. Phys. B , 105 : 923 – 931 .
  • Sun , K. , Tao , L. , Miller , D. J. , Khan , M. A. and Zondlo , M. A. 2013 . Inline multi-harmonic calibration method for open-path atmospheric ammonia measurements . Appl. Phys. B. , 110 : 213 – 222 .
  • Tao , L. , Sun , K. , Khan , M. A. , Miller , D. J. and Zondlo , M. A. 2012 . Compact and portable open-path sensor for simultaneous measurements of atmospheric N2O and CO using a quantum cascade laser . Optic. Express. , 20 : 28106 – 28118 .
  • Jiménez , R. , Taslakov , M. , Simeonov , V. , Calpini , B. , Jeanneret , F. , Hofstetter , D. , Beck , M. , Faist , J. and Van den Bergh , H. 2004 . Ozone detection by differential absorption spectroscopy at ambient pressure with a 9.6 μm pulsed quantum-cascade laser . Appl. Phys. B , 78 : 249 – 256 .
  • Taslakov , M. , Simeonov , V. , Froidevaux , M. and Van den Bergh , H. 2006 . Open-path ozone detection by quantum-cascade laser . Appl. Phys. B , 82 : 501 – 506 .
  • Díaz-Pinés , E. , Wolf , B. , Kiese , R. and Butterbach-Bahl , K. 2012 . Towards accurate assessments of CH4 and N2O soil–atmosphere exchange rates with the combination of automated systems and new detection techniques . Geophys. Res. Abstr. , 14 7171
  • Risby , T. H. and Tittel , F. K. 2010 . Current status of midinfrared quantum and interband cascade lasers for clinical breath analysis . Opt. Eng. , 49 : 111123
  • Mandon , J. , Högman , M. , Merkus , P. J. , van Amsterdam , J. , Harren , F. J. and Cristescu , S. M. 2012 . Exhaled nitric oxide monitoring by quantum cascade laser: Comparison with chemiluminescent and electrochemical sensors . J. Biomed. Optic. , 17 : 017003
  • Nwaboh , J. , Persijn , S. , Heinrich , K. , Sowa , M. and Werhahn , O. 2012 . QCLAS and CRDS-based CO quantification as aimed at in breath measurements . Int. J. Spectros. , 2012 : 1 – 10 .
  • Hildenbrand , J. , Herbst , J. , Wöllenstein , J. and Lambrecht , A. 2009 . Explosive detection using infrared laser spectroscopy . Proc. SPIE , 7222 72220B
  • Van Neste , C. W. , Senesac , L. R. and Thundat , T. 2009 . Standoff spectroscopy of surface adsorbed chemicals . Anal. Chem. , 81 : 1952 – 1956 .
  • Normand , E. , Howieson , I. , McCulloch , M. and Black , P. 2006 . Quantum cascade laser (QCL) based sensor for the detection of explosive compounds . Proc. SPIE , 6402 : 64020G
  • Fried , A. , Diskin , G. , Weibring , P. , Richter , D. , Walega , J. G. , Sachse , G. , Slate , T. , Rana , M. and Podolske , J. 2008 . Tunable infrared laser instruments for airborne atmospheric studies . Appl. Phys. B , 92 : 409 – 417 .
  • NASA, NASA Airborne Science Program . 2012 . Available at http://airbornescience.nasa.gov/instrument/all
  • Webster , C. R. , Flesch , G. J. , Scott , D. C. , Swanson , J. , May , R. D. , Woodward , W. S. , Gmachl , C. , Capasso , F. , Sivco , D. L. , Baillargeon , J. N. , Hutchinson , A. L. and Cho , A. Y. 2001 . Quantum-cascade laser measurements of stratospheric methane and nitrous oxide . Appl. Optic. , 40 : 321 – 326 .
  • (a) Jiménez , R. , Daube , B. C. , Park , S. , Kort , E. A. , Gottlieb , E. , Wofsy , S. C. , McManus , J. B. , Nelson , D. D. and Zahniser , M. S. 2007 . “ A pulsed QC-laser based dual-spectrometer instrument for airborne measurements of CO2, CO, CH4 and N2O ” . In Proceedings of Field Laser Applications in Industry and Research (FLAIR) Florence , , Italy (b) Jiménez, R., Park, S., Daube, B.C., McManus, J.B., Nelson, D.D., Zahniser, M.S., and Wofsy, S.C. (2005) A new quantum-cascade laser based spectrometer for high-precision airborne CO2 measurements. Proceedings of the 13th WMO/IAEA Meeting of Experts on Carbon Dioxide Concentration and Related Tracers Measurement Techniques, Boulder, Colorado, USA.
  • Wunch , D. , Toon , G. C. , Wennberg , P. O. , Wofsy , S. C. , Stephens , B.B. , Fischer , M.L. , Uchino , O. , Abshire , J.B. , Bernath , P. , Biraud , S.C. , Blavier , J.-F.L. , Boone , C. , Bowman , K.P. , Browell , E.V. , Campos , T. , Connor , B.J. , Daube , B.C. , Deutscher , N.M. , Diao , M. , Elkins , J.W. , Gerbig , C. , Gottlieb , E. , Griffith , D.W.T. , Hurst , D.F. , Jiménez , R. , Keppel-Aleks , G. , Kort , E.A. , Macatangay , R. , Machida , T. , Matsueda , H. , Moore , F. , Morino , I. , Park , S. , Robinson , J. , Roehl , C.M. , Sawa , Y. , Sherlock , V. , Sweeney , C. , Tanaka , T. and Zondlo , M.A. 2010 . Calibration of the Total Carbon Column Observing Network using aircraft profile data . Atmos. Meas. Tech. , 3 : 1351 – 1362 .
  • Hanisco , T. F. , Moyer , E. J. , Weinstock , E. M. , St. Clair , J. M. , Sayres , D. S. , Smith , J. B. , Lockwood , R. , Anderson , J. G. , Dessler , A. E. , Keutsch , F. N. , Spackman , J. R. , Read , W. G. and Bui , T. P. 2007 . Observations of deep convective influence on stratospheric water vapor and its isotopic composition . Geophys. Res. Lett. , 34 : L04814
  • Moyer , E. J. , Sayres , D. S. , Engel , G. S. , St. Clair , J. M. , Keutsch , F. N. , Allen , N. T. , Kroll , J. H. and Anderson , J. G. 2008 . Design considerations in high-sensitivity off-axis integrated cavity output spectroscopy . Appl. Phys. B , 92 : 467 – 474 .
  • Sayres , D. S. , Moyer , E. J. , Hanisco , T. F. , St. Clair , J. M. , Keutsch , F. N. , O’Brien , A. , Allen , N. T. , Lapson , L. , Demusz , J. N. , Rivero , M. , Martin , T. , Greenberg , M. , Tuozzolo , C. , Engel , G. S. , Kroll , J. H. , Paul , J. B. and Anderson , J. G. 2009 . A new cavity based absorption instrument for detection of water isotopologues in the upper troposphere and lower stratosphere . Rev. Sci. Instrum. , 80 : 044102
  • Witinski , M. F. , Sayres , D. S. and Anderson , J. G. 2011 . High precision methane isotopologue ratio measurements at ambient mixing ratios using integrated cavity output spectroscopy . Appl. Phys. B , 102 : 375 – 380 .
  • Malara , P. , Witinski , M. F. , Capasso , F. , Anderson , J. G. and De Natale , P. 2012 . Sensitivity enhancement of off-axis ICOS using wavelength modulation . Appl. Phys. B , 108 : 353 – 359 .
  • Kormann , R. , Königstedt , R. , Parchatka , U. , Lelieveld , J. and Fischer , H. 2005 . QUALITAS: A mid-infrared spectrometer for sensitive trace gas measurements based on quantum cascade lasers in CW operation . Rev. Sci. Instrum. , 76 : 075102
  • Kormann , R. and Fischer , H. 1999 . A compact multi-laser TDLAS for trace gas flux measurements based on a micrometeorological technique . Proc. SPIE , 3758 : 162 – 169 .
  • Kormann , R. , Fischer , H. , Gurk , C. , Helleis , F. , Klüpfel , Th. , Kowalski , K. , Königstedt , R. , Parchatka , U. and Wagner , V. 2002 . Application of a multi-laser tunable diode laser absorption spectrometer for atmospheric trace gas measurements at sub-ppbv levels . Spectrochim. Acta A , 58 : 2489 – 2498 .
  • Li , J. S. , Parchatka , U. , Königstedt , R. and Fischer , H. 2012 . Real-time measurements of atmospheric CO using a continuous-wave room temperature quantum cascade laser based spectrometer . Optic. Express , 20 : 7590 – 7601 .
  • Li , J. S. , Parchatka , U. and Fischer , H. 2012 . Applications of wavelet transform to quantum cascade laser spectrometer for atmospheric trace gas measurements . Appl. Phys. B , 108 : 951 – 963 .
  • Schiller , C. L. , Bozem , H. , Gurk , C. , Parchatka , U. , Königstedt , R. , Harris , G. W. , Lelieveld , J. and Fischer , H. 2008 . Applications of quantum cascade lasers for sensitive trace gas measurements of CO, CH4, N2O and HCHO . Appl. Phys. B , 92 : 419 – 430 .
  • Wienhold , F. G. , Fischer , H. , Hoor , P. , Wagner , V. , Königstedt , R. , Harris , G. W. , Anders , J. , Grisar , R. , Knothe , M. , Riedel , W. J. , Lübken , F.-J. and Schilling , T. 1998 . TRISTAR—A tracer in situ TDLAS for atmospheric research . Appl. Phys. B , 67 : 411 – 417 .
  • Herndon , S. C. , Zahniser , M. S. , Nelson , D. D. Jr. , Shorter , J. , McManus , J. B. , Jiménez , R. , Warneke , C. and de Gouw , J. A. 2007 . Airborne measurements of HCHO and HCOOH during the New England Air Quality Study 2004 using a pulsed quantum cascade laser spectrometer . J. Geophys. Res. , 112 D10S03
  • Provencal , R. , Gupta , M. , Owano , T. G. , Baer , D. S. , Ricci , K. N. , O’Keefe , A. and Podolske , J. R. 2005 . Cavity enhanced quantum-cascade laser–based instrument for carbon monoxide measurements . Appl. Optic. , 44 : 6712 – 6717 .
  • Wright , S. , Duxbury , G. and Langford , N. 2006 . A compact quantum-cascade laser based spectrometer for monitoring the concentrations of methane and nitrous oxide in the troposphere . Appl. Phys. B , 85 : 243 – 249 .
  • Hay , K. G. , Wright , S. , Duxbury , G. and Langford , N. 2008 . In-flight measurements of ambient methane, nitrous oxide and water using a quantum cascade laser based spectrometer . Appl. Phys. B , 90 : 329 – 337 .
  • Levi , A. F.J. 1994 . Microdisk lasers . Solid State Electron. , 37 : 1297 – 1302 .
  • Wang , C. Y. , Kuznetsova , L. , Gkortsas , V. M. , Diehl , L. , Kärtner , F. X. , Belkin , M. A. , Belyanin , A. , Li , X. , Ham , D. , Schneider , H. , Grant , P. , Song , C. Y. , Haffouz , S. , Wasilewski , Z. R. , Liu , H. C. and Capasso , F. 2009 . Mode-locked pulses from mid-infrared quantum cascade lasers . Optic. Express , 17 : 12929 – 12943 .
  • Scalari , G. , Amanti , M. I. , Walther , C. , Terazzi , R. , Beck , M. and Faist , J. 2010 . Broadband THz lasing from a photon–phonon quantum cascade structure . Optic. Express , 18 : 8043 – 8052 .
  • Köhler , R. , Tredicucci , A. , Beltram , F. , Beere , H. E. , Linfield , E. H. , Davies , A. G. , Ritchie , D. A. , Iotti , R. C. and Rossi , F. 2002 . Terahertz semiconductor-heterostructure laser . Nature , 417 : 156 – 159 .
  • Williams , B. S. , Kumar , S. , Hu , Q. and Reno , J. L. 2006 . High-power terahertz quantum cascade lasers . Electron. Lett. , 42 : 89 – 91 .
  • Lee , A. W.M. , Qin , Q. , Kumar , S. , Williams , B. S. , Hu , Q. and Reno , J. L. 2007 . High-power and high-temperature THz quantum-cascade lasers based on lens-coupled metal–metal waveguides . Optic. Lett. , 32 : 2840 – 2842 .
  • Williams , B. S. , Kumar , S. , Hu , Q. and Reno , J. L. 2005 . Operation of terahertz quantum-cascade lasers at 164 K in pulsed mode and at 117 K in continuous-wave mode . Optic. Express , 13 : 3331 – 3339 .
  • Belkin , M. A. , Fan , J. A. , Hormoz , S. , Capasso , F. , Khanna , S. P. , Lachab , M. , Davies , A. G. and Linfield , E. H. 2008 . Terahertz quantum cascade lasers with copper metal–metal waveguides operating up to 178 K . Optic. Express , 16 : 3242 – 3248 .
  • Scalari , G. , Walther , C. , Faist , J. , Beere , H. and Ritchie , D. 2006 . Electrically switchable, two-color quantum cascade laser emitting at 1.39 and 2.3 THz . Appl. Phys. Lett. , 88 : 141102
  • Hensley , J. M. , Montoya , J. , Allen , M. G. , Xu , J. , Mahler , L. , Tredicucci , A. , Beere , H. E. and Ritchie , D. A. 2009 . Spectral behavior of a terahertz quantum-cascade laser . Optic. Express , 22 : 20476 – 20483 .
  • Belkin , M. A. , Capasso , F. , Xie , F. , Belyanin , A. , Fischer , M. , Wittmann , A. and Faist , J. 2008 . Room temperature terahertz quantum cascade laser source based on intracavity difference-frequency generation . Appl. Phys. Lett. , 92 : 201101
  • Williams , B. S. 2007 . Terahertz quantum cascade lasers . Nat. Photon. , 1 : 517 – 525 .
  • Kumar , S. 2011 . Recent progress in terahertz quantum cascade lasers . IEEE J. Sel. Top. Quant. Electron. , 17 : 38 – 47 .
  • Cao , J. 2012 . Research progress in terahertz quantum cascade lasers . Sci. China F , 55 : 16 – 26 .
  • Hübers , H.-W. , Pavlov , S. G. , Richter , H. , Semenov , A. D. , Mahler , L. , Tredicucci , A. , Beere , H. E. and Ritchie , D. A. 2006 . High-resolution gas phase spectroscopy with a distributed feedback terahertz quantum cascade laser . Appl. Phys. Lett. , 89 : 061115
  • Reddy , M. N. 2009 . Terahertz quantum cascade lasers for ultra-sensitive detection of explosives and improvised explosive devices . DRDO Science Spectrum , 2009 : 140 – 141 .
  • Ren , Y. , Hovenier , J. N. , Higgins , R. , Gao , J. R. , Klapwijk , T. M. , Shi , S. C. , Klein , B. , Kao , T-Y. , Hu , Q. and Reno , J. L. 2011 . High-resolution heterodyne spectroscopy using a tunable quantum cascade laser around 3.5 THz . Appl. Phys. Lett. , 98 : 231109
  • Lee , A. W.M. , Williams , B. S. , Hu , Q. and Reno , J. L. 2006 . Real-time imaging using a 4.3-THz quantum cascade laser and a 320×240 microbolometer focal-plane array . IEEE Photon. Tech. Lett. , 18 : 1415 – 1417 .
  • Behnken , B. N. and Karunasiri , G. 2008 . Real-time terahertz imaging of nonmetallic objects for security screening and anti-counterfeiting applications . Proc. SPIE , 7117 : 711705
  • Zhang , W. , Khosropanah , P. , Hovenier , J. N. , Gao , J. R. , Bansal , T. , Klapwijk , T. M. , Amanti , M. I. , Scalari , G. and Faist , J. Towards detection of OH line at 3.5 THz using a HEB mixer and a distributed feedback quantum cascade laser . 19th International Symposium on Space Terahertz Technology , Groningen , , Germany April 28–30
  • Eliet , S. , Guinet , M. , Cuisset , A. , Hindle , F. , Pirali , O. , Martin-Drumel , M.-A. and Mouret , G. Detection and analysis of OH and SH radicals by using THz photomixing synthesizer . In 36th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz), October 2–7 ,
  • Bellotti , E. , Driscoll , K. , Moustakas , T. D. and Paiella , R. 2008 . Monte Carlo study of GaN versus GaAs terahertz quantum cascade structures . Appl. Phys. Lett. , 92 : 101112

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