Products
DFB Laser
FP Laser
SLD
MIR LED
Interband Cascade Laser
Packaging Options
FAQs
Services
Applications
Applications by Gas
Applications by Industry
Tunable Diode Laser Absorption Spectroscopy
Literature
Contact
People
Sales Partners
Meet Us
Directions
About Us
History & Innovations
Quality Management & Sustainability
Cooperations
Management
People
News
Literature
Meet Us
Careers
Entwicklungsingenieur Hardwareentwicklung
Ausbildungsplatz Mikrotechnologe
Systemadministrator
Entwicklungsingenieur Laseroptik & Packaging
Entwicklungsingenieur Quantenkaskadenlaser
Kaufmännisch technischer Vertriebsmitarbeiter - Team Assistant Sales (m/w/d)

Literature

Further Reading

References

Laser, Applications & Technology

We compiled a number of papers that provide detailed information on nanoplus lasers, TDLAS applications and technology. The numbering of the papers is at random. Please refer to the menu items products, applications and technology for selected literature recommendations. Further literature is available in Dr. Koeth's personal list of publications.

# 1 Overview of common wavelengths between 760 nm and 6000 nm
# 2 Advanced Gas Sensing Applications Above 3 µm with DFB Laser Diodes
L. Naehle, L. Hildebrandt, M. Fischer, J. Koeth, Gases & Instrumentation, March/April 2012, pp. 25 - 28,
# 3 Gas monitoring in the process industry using diode laser spectroscopy
I. Linnerud, P. Kaspersen, T. Jaeger, Appl. Phys. B, 67, 1998, pp. 297-305,
# 4 Laser-Based Analyzers – Shining New Stars
P. Nesdore, Gases & Instrumentation, March/April 2011, pp. 30-33,
# 5 DFB lasers exceeding 3 µm for industrial applications
L. Naehle, L. Hildebrandt, Laser+Photonics, 2012, pp. 78-80,
# 6 Using diode lasers for atomic physics
C.E. Wieman, L. Hollberg, Rev.Sci.Instrum., 62 (I) , 1991, pp. 1-20,
# 7 DFB laser diodes expand hydrocarbon sensing beyond 3 µm
L. Hildebrandt, L. Naehle, Laser Focus World, January 2012, pp. 87-90,
# 8 ICLs open opportunities for mid-IR sensing
L. Naehle, L. Hildebrandt, M. Kamp, S. Hoefling, Laser Focus World, May 2013, pp. 70-73.,
# 9 DFB Lasers Between 760 nm and 16 µm for Sensing Applications
W. Zeller, L. Naehle, P. Fuchs, F. Gerschuetz, L. Hildebrandt, J. Koeth , Sensors, 10, 2010, pp. 2492-2510.,
# 10 Continuous wave, distributed feedback diode laser based sensor for trace-gas detection of ethane
K. Krzempek, R. Lewicki, L. Naehle, M. Fischer, J. Koeth, S. Belahsene, Y. Rouillard, L. Worschech, F.K. Tittel , Appl. Phys. B , 106, 2, 2012, pp 251-255.,
# 11 Quantum cascade laser linewidth investigations for high resolution photoacoustic spectroscopy
M. Germer, M. Wolff , Appl. Opt., 48, 4, 2009, pp. B80-B86.,
# 12 CO2 concentration and temperature sensor for combustion gases using diode-laser absorption near 2.7 µm
A. Farooq, J.B. Jeffries, R.K. Hanson, Appl. Phys. B, 90, 2008, pp. 619-628.,
# 13 Continuous-wave operation of type-I quantum well DFB laser diodes emitting in 3.4 µm wavelength range around room temperature
L. Naehle, S. Belahsene, M. von Edlinger, M. Fischer, G. Boissier, P. Grech, G. Narcy, A. Vicet, Y. Rouillard, J. Koeth and L. Worschech , Electron. Lett. 47, 1, Januar 2011, pp. 46-47.,
# 14 Evaluation of the Radiation Hardness of GaSbbased Laser Diodes for Space Applications;
I. Esquivias, J.M.G. Tijero, J. Barbero, D. Lopez, M. Fischer, K. Roessner, J. Koeth, RADECS Proceedings, 2011, pp. 349-352,
# 15 Scanned-wavelength-modulation spectroscopy near 2.5 µm for H2O and temperature in a hydrocarbon-fueled scramjet combustor
C. S. Goldenstein, I. A. Schultz, R. M. Spearrin, J. B. Jeffries, R.K. Hanson, Appl. Phys. B,, 116, 3, September 2014, pp 717-727.,
# 16 Diode laser measurements of linestrength and temperature-dependent lineshape parameters of H2O-, CO2-, and N2-perturbed H2O transitions near 2474 and 2482 nm
C.S. Goldenstein, J.B. Jeffries, R.K. Hanson, Journal of Quantitative Spectr. & Radiative Transfer, 130, 2013, pp. 100–111.,
# 17 Wavelength-modulation spectroscopy near 2.5 µm for H2O and temperature in high-pressure and -temperature gases
C.S. Goldenstein, R.M. Spearrin, J.B. Jeffries, R.K. Hanson, Appl. Phys. B, 116, 3, September 2014, pp 705-716.,
# 18 Monomode Interband Cascade Lasers at 5.2 µm for Nitric Oxide Sensing
M. von Edlinger, J. Scheuermann, R. Weih, C. Zimmermann, L. Naehle, M. Fischer, J. Koeth , IEEE Phot. Tech. Lett, 26, 5, 2014, pp. 480-482.,
# 19 Measurements of Mars Methane at Gale Crater by the SAM Tunable Laser Spectrometer on the Curiosity Rover
C.R. Webster, P.R. Mahaffy, S.K. Atreya, G.J. Flesch, K.A. Farley, 44th Lunar and Planetary Science Conference,, LPI Contribution No. 1719, March 18-22 2013, p. 1366.,
# 20 Interband cascade lasers with room temperature threshold current densities below 100 A/cm2
R. Weih, M. Kamp, S. Hoefling , Appl. Phys. Lett., 102, 2013, pp. 231123-231123-4.,
# 21 The airborne multi-wavelength water vapor differential absorption lidar WALES: system design and performance
M. Wirth, A. Fix, P. Mahnke, H. Schwarzer, F. Schrandt, G. Ehret, Appl. Phys.B, 96, 1th July 2009, pp. 201-213,
# 22 Sensing of formaldehyde using a distributed feedback interband cascade laser emitting around 3493 nm
S. Lundqvist, P. Kluczynski, R. Weih, M. von Edlinger, L. Naehle, M. Fischer, A. Bauer, S. Hoefling, J. Koeth, Appl. Opt., , 51, 25, 2012, pp. 6009-6013.,
# 23 MAMMUT: mirror vibration metrology for VLTI
I. Spaleniak, F. Giessler, R. Geiss, S. Minardi, T. Pertsch, R. Neuhaeuser, M. Becker, M. Rothhardt, F. Delplancke, A. Richichi, S. Menardi, C. Schmid.,
# 24 Abundance and Isotopic Composition of Gases in the Martian Atmosphere from the Curiosity Rover
P.R. Mahaffy, C.R. Webster, S.K. Atreya, H. Franz, M. Wong, P.G. Conrad, D. Harpold, J. Jones, L.A. Leshin, H. Manning, T. Owen, R.O. Pepin, S. Squyres, M. Trainer, Science, 341, 6143, 2013, pp. 263-266.,
# 25 Isotope Ratios of H, C, and O in CO2 and H2O of the Martian Atmosphere
C.R. Webster, P.R. Mahaffy, G.J. Flesch, P.B. Niles, J. Jones, L.A. Leshin, S.K. Atreya, J.C. Stern, L.E. Christensen, T. Owen, H. Franz, R.O. Pepin, A. Steele, Science, 341, 6143, 2013, pp. 260-263.,
# 26 Corrugated-sidewall interband cascade lasers with single-mode midwave-infrared emission at room temperature;
C.S. Kim, M. Kim, W.W. Bewley, J.R. Lindle, C.L. Canedy, J. Abell, I. Vurgaftman, J.R. Meyer , Appl. Phys. Lett., 95, 2009, 231103.,
# 27 The limits of signal averaging in atmospheric trace-gas monitoring by tunable diode-laser absorption spectroscopy (TDLAS)
P. Werle, R. Miicke, F. Slemr, Appl. Phys. B, 57, 1993, pp. 131-139,
# 28 In situ combustion measurements of H2O and temperature near 2.5 µm using tunable diode laser absorption
A. Farooq, J.B Jeffries, R.K Hanson, Meas. Sci. Technol., 19, 2008, 075604, pp. 11.,
# 29 Detection of Methane Isotopologues – cw-OPO vs. DFB Diode Laser
M. Wolff, S. Rhein, H. Bruhns, J. Koeth, L. Hildebrandt, P. Fuchs, 16th International Conference on Photoacoustic and Photothermal Phenomena.,
# 30 Kalman filtering real-time measurements of H2O isotopologue ratios by laser absorption spectroscopy at 2.73 µm
T. Wu, W. Chen, E. Kerstel, E. Fertein, X. Gao, J. Koeth, Karl Roessner, D. Brueckner , Opt. Lett., 35, 5, 2010, pp. 634.636.,
# 31 QCL based NO Detection
M. Wolff, J. Koeth, L. Hildebrandt, P. Fuchs; 16th International Conference on Photoacoustic and Photothermal Phenomena.,
# 32 Single-frequency Sb-based distributed-feedback lasers emitting at 2.3 µm above room temperature for application in tunable diode laser absorption spectroscopy
A. Salhi, D. Barat, D. Romanini, Y. Rouillard, A. Ouvrard, R. Werner, J. Seufert, J. Koeth, A. Vicet, A. Garnache, Appl. Opt., 45, 20, pp. 4957-4965.,
# 33 DFB laser diodes in the wavelength range from 760 nm to 2.5 µm
J. Seufert, M. Fischer, M. Legge, J. Koeth, R. Werner, M. Kamp, A. Forchel, Spectroch. Acta, Part A 60, 2004, pp. 3243-3247.,
# 34 High power pulsed 976 nm DFB laser diodes
W. Zeller, M. Kamp, J. Koeth, L. Worschech, Photonic Microdevices/Microstructures for Sensing, II, 76820T, 2010,
# 35 TDLAS-based sensors for in situ measurement of syngas composition in a pressurized, oxygen-blown, entrained flow coal gasifier
R. Sur, K. Sun, J.B. Jeffries, R.K. Hanson, R.J. Pummill, T. Waind, D.R. Wagner, K.J. Whitty, 2014, Appl. Phys. B, 116, 1, 2014, pp. 33-42,
# 36 Single mode interband cascade lasers based on lateral metal gratings
R. Weih, L. Naehle, Sven Hoefling, J. Koeth, M. Kamp , Appl. Phys. Lett., 105,7, 2014, pp. 071111.,
# 37 nanoplus wide tuning introduction
# 38 Monolithic widely tunable laser diodes for gas sensing at 2100 nm
N. Koslowski, A. Heger, K. Roesner, M. Legge, L. Hildebrandt, J. Koeth, Novel In-Plane Semiconductor Lasers, XII, 2013, 864008,
# 39 The nulltimate test bench: achromatic phase shifters for nulling interferometry
P.A. Schuller, O. Demangeon, A. Leger, M. Barillot, B. Chazelas, M. Decaudin, M. Derrien, P. Duret, P. Gabor, G. Gadret, J. Gay, A. Labeque, R. Launhardt, J. Mangin, Y. Rabbia, Z. Sodnikal , Proc. SPIE , 2010, 7734, 77342E.,
# 40 Comb-assisted spectroscopy of CO2 absorption profiles in the near- and mid-infrared regions
A. Gambetta, D. Gatti, A. Castrillo, N. Coluccelli, G. Galzerano, P. Laporta, L. Gianfrani, M. Marangoni, Appl. Phys. B, 109, 3, November 2012, pp. 385-390,
# 41 All-fiber, wavelength and repetition-rate tunable, ultrafast pulse generation in the 2.0 μm region without mode-locking
M. E. Durst and J. van Howe, Journal of lightwave technology,, Vol. 31, No. 23, 1th December 2013, pp. 3714-3718.,
# 42 Line shapes of near-infrared DFB and VCSEL diode lasers under the influence of system back reflections;
R. Engelbrecht, B. Lins, P. Zinn, R. Buchtal, B. Schmauss , Appl. Phys. B, 109, 3, November 2012, pp. 441-452.,
# 43 Chemical analysis of surgical smoke by infrared laser spectroscopy
Michele Gianella, Markus W. Sigrist , Appl. Phys. B, 109, 3, November 2012, pp. 485-496.,
# 44 High sensitivity Faraday rotation spectrometer for hydroxyl radical detection at 2.8 µm
W. Zhao, G. Wysocki, W. Chen, W. Zhang , Appl. Phys. B, 109, 3, November 2012, pp. 511-519.,
# 45 Measurements of CO2 in a multipass cell and in a hollow-core photonic bandgap fiber at 2 µm
J. A. Nwaboh, J. Hald, J. K. Lyngsø, J. C. Petersen, O. Werhahn , Appl. Phys. B, 109, 3, November 2012, pp. 187 - 194,
# 46 TDLAS-based open-path laser hygrometer using simple reflective foils as scattering targets;
A. Seidel, S. Wagner, V. Ebert, Appl. Phys. B, 109, 3, November 2012, pp. 497-504.,
# 47 High-speed tunable diode laser absorption spectroscopy for sampling-free in-cylinder water vapor concentration measurements in an optical IC engine;
O. Witzel, A. Klein, S. Wagner, C. Meffert, C. Schulz, V. Ebert, Appl. Phys. B, 109, 3, November 2012, pp. 521-532.,
# 48 Absolute, spatially resolved, in situ CO profiles in atmospheric laminar counter-flow diffusion flames using 2.3 µm TDLAS
S. Wagner, M. Klein, T. Kathrotia, U. Riedel, T. Kissel, A. Dreizler, V. Ebert , Appl. Phys. B, 109, 3, November 2012, pp. 533-540.,
# 49 Spectroscopic monitoring of NO traces in plants and human breath: applications and perspectives
S. M. Cristescu, D. Marchenko, J. Mandon, K. Hebelstrup, G. W. Griffith, L. A. J. Mur, F. J. M. Harren, Appl. Phys. B,, 109, 3, November 2012, pp. 203-211.,
# 50 Mid-IR difference frequency laser-based sensors for ambient CH4, CO, and N2O monitoring;
J. J. Scherer, J. B. Paul, H. J. Jost, Marc L. Fischer, Appl. Phys. B, 109, 3, November 2017, pp. 271-277.,
# 51 Noninvasive monitoring of gas in the lungs and intestines of newborn infants using diode lasers: feasibility study
P. Lundin, E.K. Svanberg, L. Cocola, M.L. Xu, G. Somesfalean, S. Andersson-Engels, J. Jahr, V. Fellman, K. Svanberg, S. Svanberg , Journal of Biomedical Optics, 18 (12), December 2013, 127005,
# 52 Antireflection-coated blue GaN laser diodes in an external cavity and Doppler-free indium absorption spectroscopy
L. Hildebrandt, R. Knispel, S. Stry, J.R. Sacher, F. Schael , Appl. Opt., 42, No. 12, 2003, pp. 2110-2118.,
# 53 CW DFB RT diode laser-based sensor for trace-gas detection of ethane using a novel compact multipass gas absorption cell
K. Krzempek, M. Jahjah, R. Lewicki, P. Stefanski, S. So, D. Thomazy, F.K. Tittel, Appl. Phys. B, 112, 4. September 2013, pp. 461-465.,
# 54 Demonstration of the self-mixing effect in interband cascade lasers
K. Bertling, Y.L. Lim, T. Taimre, D. Indjin, P. Dean, R. Weih, S. Hoefling, M. Kamp, M. von Edlinger, J. Koeth, A.D. Rakic, Appl. Phys. Lett., 103, 2013, 231107,
# 55 Photonic Crystal Laser Based Gas Sensor
M. Wolff, H. Bruhns, J. Koeth, W. Zeller, L. Naehle, book edited by M. Yasin, S.W. Harun, H. Arof, ISBN 978-953-51-1233-4, Optical Sensors - New Developments and Practical Applications, 19th March 2014, Chapter 4,
# 56 Widely tunable quantum cascade lasers with coupled cavities for gas detection
P. Fuchs, J. Seufert, J. Koeth, J. Semmel, S. Hoefling, L. Worschech, A. Forchel, App. Phys. Lett., 97, 2010, 181111,
# 57 Distributed feedback quantum cascade lasers at 13.8 µm on indium phosphide
P. Fuchs, J. Semmel, J. Friedl, S. Hoefling, J. Koeth, L. Worschech, A. Forchel , Appl. Phys. Lett., 98, 2011, 211118,
# 58 Human-Body-Model Electrostatic-Discharge and Electrical-Overstress Studies of Buried-Heterostructure Semiconductor Lasers
J.S. Huang, T. Olson, E. Isip, IEEE Transactions on Devices and Materials Reliability, 7,3, September 2007, 453-461.,
# 59 Semiconductor laser damage due to human-body-model electrostatic discharge
Y. Twu, L.S. Cheng, S.N.G. Chu, F.R. Nash, K.W. Wang, P. Parayanthal , Journal of Applied Physics, 74 (3), August 1993, 1510-1520.,
# 60 Single mode quantum cascade lasers with shallow-etched distributed Bragg reflector
P. Fuchs, J. Friedl, S. Hoefling, J. Koeth, A. Forchel, L. Worschech, M. Kamp, Opt. Expr., 20,4, 2012, pp. 3890-3897.,
# 61 Demonstration of an Ethane Spectrometer for Methane Source Identification
T.I. Yacovitch, S.C. Herndon, J.R. Roscioli, C. Floerchinger, R.M. McGovern, M. Agnese, G. Petron, J. Kofler, C. Sweeney, A. Karion, S.A. Conley, E.A. Kort, L. Naehle, M. Fischer, L. Hildebrandt,.J. Koeth, J.B. McManus, D.D. Nelson, M.S. Zahniser, C.E. Kolb, Environ. Sci. Technol., 48, 2014, 8028-8034.,
# 62 High-sensitivity interference-free diagnostic for measurement of methane in shock tubes
R. Sur, S. Wang, K. Sun, D. F. Davidson, J. B. Jeffries, R. K. Hanson, Journal of Quantitative Spectroscopy and Radiative Transfer, Vol. 156, May 2015, pp. 80-87,
# 63 Breath Analysis Using Laser Spectroscopic Techniques: Breath Biomarkers, Spectral Fingerprints, and Detection Limits
C. Wang and P. Sahay, Sensors, 9, 2009, 8230 - 8262,
# 64 Interband Cascade Lasers - Topical Review
I. Vurgaftman, R. Weih, M. Kamp, C.L. Canedy, C.S. Kim, M. Kim, W.W. Bewley, C.D. Merritt, J. Abell, S. Hoefling, Phys. D: Appl. Phys., 48, 2015, pp. 123001-12017.,
# 65 H2O temperature sensor for low-pressure flames using tunable Diode laser Absorption near 2.9 µm
S. Li, A. Farooq, R.K. Hanson, Meas. Sci. Technol., 22, 2011, pp. 125301-125311.,
# 66 The Performance of the calibration mudule for SPHERE
F. Wildi, B. Michaud, M. Crausaz, R. Dubosson, D. Mouliiet, K. Dohlen, H.-M. Schmidt, J.-L. Beuzit, in Ground-based and Airborne Instrumentation for Astronomy, III, SPIE, 2011, 7735-101,
# 67 New Opportunities in Mid-Infrared Emission Control
P. Geiser, Sensors, 2015, pp. 22724-22736.,
# 68 Field laser applications in industry and research
F. D'Amato, A. Fried, App. Phys. B, 119, 2015, pp. 1-2.,
# 69 A quartz-enhanced photoacoustic sensor for H2S trace-gas detection at 2.6µm
S. Viciani, M. Siciliani de Cumis, S. Borri, P. Patimisco, A. Sampaolo, G. Scamarcio, P. De Natale, F. D'Amato, V. Spagnolo, App. Phys. B, 119, 2015, pp. 21-27,
# 70 In situ H2O and temperature detection close to burning biomass pellets using calibration-free wavelength modulation spectroscopy
Z. Qu, F.M. Schmidt, App. Phys. B, 119, 2015, pp. 45-53.,
# 71 Novel utilisation of a circular multi-reflection cell applied to materials ageing experiments
D.A. Knox, A.K. King, E.D. McNaghten, S.J. Brooks, P.A. Martin, S.M. Pimblott , App. Phys. B, 119, 2015, pp. 55-64.,
# 72 TDLAS-based NH3 mole fraction measurement for exhaust diagnostics during selective catalytic reduction using a fiber-coupled 2.2-µm DFB Diode laser
F. Stritzke, O. Diemel, S. Wagner , App. Phys. B, 119, 2015, pp. 143-152.,
# 73 Time-multiplexed open-path TDLAS spectrometer for dynamic, sampling-free, Interstitial H218O and H216O vapor detection in ice clouds
B. Kuehnreich, S. Wagner, J.C. Habig, O. Moehler, H. Saathoff, V. Ebert , App. Phys. B, 119, 2015, pp. 177-187.,
# 74 Laser absorption diagnostic for measuring acetylene concentrations in shock tubes
I. Stranic, R. K. Hanson pp. 58-65, Journal of Quantitative Spectroscopy and Radiative Transfer, 142, July 2014, pp. 58 - 65,
# 75 Interband cascade laser sources in the mid-infrared for green photonics
J. Koeth, M. von Edlinger, J. Scheuermann, S. Becker, L. Nähle, M. Fischer, R. Weih, M. Kamp, S. Höfling, , Novel In-Plane Semiconductor Lasers , XV, 9767, 10th March 2016, 976712,
# 76 Diode laser-based trace detection of hydrogen-sulfide at 2646.3 nm and hydrocarbon spectral interference effects
R. Sharma, C. Mitra, V. Tilak, 55(3) , Opt. Eng. , 55 (3), 14th March 2016, 037106,
# 77 Compact TDLAS based sensor design using interband cascade lasers for mid-IR trace gas sensing
L. Dong, F. K. Tittel, C. Li, N. P. Sanchez, H. Wu, C. Zheng, Y. Yu, A. Sampaolo, R. J. Griffin , Optics Express, Vol. 24, Issue 6, 2016, pp. A528-A535.,
# 78 Ppb-level formaldehyde detection using a CW room-temperature interband cascade laser and a miniature dense pattern multipass gas cell
L. Dong,Y. Yu,.C. Li, S. So, F. Tittel, Optics Express, Vol. 23, Issue 15, 2015, pp. 19821-19830.,
# 79 InAs-based distributed feedback interband cascade lasers
M. Dallner, J. Scheuermann, L. Nähle, M. Fischer, J. Koeth, S. Höfling, M. Kamp, Appl. Phys. Lett., 107, 2015, 181105.,
# 80 Single-mode interband cascade lasers emitting below 2.8 μm
J. Scheuermann, R. Weih, M. v. Edlinger, L. Nähle, M. Fischer, J. Koeth, M. Kamp, S. Höfling , Appl. Phys. Lett. , 106, 2015, 161103.,
# 81 Dynamic spectral characteristics measurement of DFB interband cascade laser under injection current tuning
Z. Du, G. Luo, Y. An, J. Li, Appl. Phys. Lett., 109, 2016, 011903.,
# 82 Ppb-level mid-infrared ethane detection based on three measurement schemes using a 3.34 μm continuous-wave interband cascade laser
C. Li, C. Zheng, L. Dong, W. Ye, F. K. Tittel, Y. Wang , Appl. Phys. B, July 2016, 122:185.,
# 83 Mid-infrared surface plasmon polariton chemical sensing on fiber-coupled ITO coated glass
J. Martínez, A. Ródenas, M. Aguiló, T. Fernandez, J. Solis, F. Díaz , Optics Letters, Vol. 41, No. 11, 1th June 2016, pp. 2493 - 2496.,
# 84 Optical gas sensing: a review
J. Hodgkinson, R. P. Tatam, Measurement Science and Technology, Vol.24, No.1, 2013,
# 85 Frequency modulation characteristics for interband cascade lasers emitting at 3 µm
J. Li, Z. Du, Y. An, Appl. Phys. B, 2015, 121:7–17.,
# 86 Detection of methyl mercaptan with a 3393‑nm distributed feedback interband cascade laser
Z. Du, W. Zhen, Z. Zhang, J. Li, N. Gao, Appl. Phys. B, 2016, 122 : 100,
# 87 Optical‑feedback cavity‑enhanced absorption spectroscopy with an interband cascade laser: application to SO2 trace analysis
L. Richard, I. Ventrillard, G. Chau, K. Jaulin, E. Kerstel, D. Romanini , Appl. Phys. B, 2016, 122:247.,
# 88 Oxygen-18 isotope of breath CO2 linking to erythrocytes carbonic anhydrase activity: a biomarker for pre-diabetes and type 2 diabetes
C. Ghosh, G. D. Banik, A. Maity, S. Som, A. Chakraborty, C. Selvan, S. Ghosh, S. Chowdhury, M. Pradhan , Scientific Reports, 2015, 5 : 8137.,
# 89 Mars methane detection and variability at Gale crater
C. R. Webster, P. R. Mahaffy, S. K. Atreya, G. J. Flesch, M. A. Mischna, P.-Y. Meslin, K. A. Farley, P. G. Conrad,L. E. Christensen, A. A. Pavlov, J. Martín-Torres, M.-P. Zorzano, T. H. McConnochie, T. Owen, J. L. Eigenbrode, D. P. Glavin, A. Steele, C. A. Malespin, P. Douglas Archer Jr., B. Sutter, P. Coll, C. Freissinet, C. P. McKay, J. E. Moores, S. P. Schwenzer, J. C. Bridges, R. Navarro-Gonzalez, R. Gellert, M. T. Lemmon , the MSL Science Team, Science, Vol.347, Issue 6220, 23. Januar 2015 , pp. 415-417.,
# 90 Optical feedback cavity-enhanced absorption spectroscopy with a 3.24 µm interband cascade laser
K. M. Manfred, G. A. D. Ritchie, N. Lang, J. Roepcke, J. H. van Helden , Appl. Phys. Lett. 106, 2015, 221106.,
# 91 Brillouin optical time domain analysis in silica fibers at 850 nm wavelength
A. Minardo, A. Coscetta, R. Bernini, and L. Zeni, EEE Phot. Tech I. Lett., Vol.28, No.22, 15. November 2016,
# 92 Development and field deployment of a mid-infrared methane sensor without pressure control using interband cascade laser absorption spectroscopy
Ch. Zheng, W. Ye, N. P. Sanchez, Ch. Li, L. Dong, Y. Wang, R. J. Griffin, F. K. Tittel , Sensors and Actuators B: Chemical, Vol. 244, June 2017, 365–372.,
# 93 Interband cascade laser-based optical transfer standard for atmospheric carbon monoxide measurements
J. A. Nwaboh, Z. Qu, O. Werhahn and V. Ebert , App. Optics, Vol. 56, No.11, 10. April 2017, pp. E84-E93.,
# 94 Compact optical probe for flame temperature and carbon dioxide using interband cascade laser absorption near 4.2 μm
J. J. Girard, R. M. Spearrin, C. S. Goldenstein, R. K. Hanson, Elsevier , Combustion and Flame, Vol.178, April 2017, pp. 158 – 167.,
# 95 Harsh-environment-resistant OH-vibrations-sensitive mid-infrared water-ice photonic sensor;
J. Martínez, A. Ródenas, A. Stake, M. Traveria, M. Aguiló, J. Solis, R. Osellame, T. Tanaka, B. Berton, S. Kimura, N. Rehfeld, F. Díaz , Adv. Mater. Technol., 2017, 1700085.,
# 96 Fiber-coupled 2.7 μm laser absorption sensor for CO2 in harsh combustion environments
R. M. Spearrin, C. S. Goldenstein, J. B. Jeffries and R. K. Hanson, Meas. , Sci. Technol., 24.April.2013, 055107.,
# 97 Driver alcohol detection system for safety (DADSS) - preliminary human testing results
S. E. Lukas, A. Zaouk, E. Ryan, J. McNeil, J. Shepherd, M. Willis, N. Dalal, K. Schwartz, 25th ESV, 2017, 17-0304-O.,
# 98 Development of a solid state, non-invasive, human touch based blood alcohol sensor
B. Ver Steeg, D. Treese, R. Adelante, A. Kraintz, B. Laaksonen, T. Ridder, M. Legge, N. Koslowski, S. Zeller, L. Hildebrandt, J. Koeth, L. Cech, D. Rumps, M. Nagolu, D. Cox, 25th ESV, 2017, 17-0036-O.,
# 99 A photonic platform for donor spin qubits in silicon
K. J. Morse, R. J. S. Abraham, A. DeAbreu, C. Bowness, T. S. Richards, H. Riemann, N. V. Abrosimov, P. Becker, H.-J. Pohl, M. L. W. Thewalt, S. Simmons , Sci. Adv., Vol. 3, No.7, 2017, e1700930.,
# 100 Multiheterodyne spectroscopy using interband cascade lasers
L. A. Sterczewski, J. Westberg, C. L. Patrick, C. S. Kim, M. Kim, C. L. Canedy, W. W. Bewley, C. D. Merritt, I. Vurgaftman, J. R. Meyer and G. Wysocki, Opt. Eng., 57(1), Januar 2018, 011014,
# 101 Single-mode interband cascade laser multiemitter structure for two-wavelength absorption spectroscopy;
Scheuermann, R. Weih, S. Becker, M. Fischer, J. Koeth, S. Höfling, Opt. Eng., 57 (1), September 2017, 011008,
# 102 Laser detection
L. Hildebrandt, Hydrocarbon Engineering, Februar 2018,
# 103 Detection of ethanol using a tunable interband cascade laser at 3.345 μm
H. Gao, L. Xie, P. Gong et al. , Photonic Sensors, 2018, pp. 1 - 7,
# 104 Mid-infrared heterodyne phase-sensitive dispersion spectroscopy in flame measurements
L. Ma, Z. Wang, K.-P. Cheong, H. Ning, W. Ren , Proceedings of the Combustion Institute, 2018, pp. 1 - 8.,
# 105 Design and performance of a dual-laser instrument for multiple isotopologues of carbon dioxide and water
J. B. McManus, D. D. Nelson and M. S. Zahniser , Optics Express, Vol.23, Issue 5, 2015, pp. 6569-6586.,
# 106 Recent progress in laser‑based trace gas instruments: performance and noise analysis
J. B. McManus, M. S. Zahniser, D. D. Nelson et. al., Appl. Phys. B, 2015, 119: 203.,
# 107 Interband cascade laser-based ppbv-level mid-infrared methane detection using two digital lock-in amplifier schemes
F. Song, C. Zheng, D. Yu, Y. Zhou, W. Yan, W. Ye, Y. Zhang, Y. Wang, F. K. Tittel , Appl. Phys. B, 2018, 124:51.,
# 108 Dual-feedback mid-infrared cavity-enhanced absorption spectroscopy for H2CO detection using a radio-frequency electricallymodulated interband cascade laser
Q. He, C. Zheng, M. Lou, W. Ye, Y. Wang, F. K. Tittel , Opt. Expr, Vol.26, No.12, 2018, p. 15436.,
# 109 Performance enhancement of methane detection using a novel self-adaptive mid-infrared absorption spectroscopy technique
F. Song, C. Zheng, W. Yan, W. Ye, Y. Zhang, Y. Wang, F. K. Tittel, IEEE Phot. Journ., Vol.10, No.6, December 2018,
# 110 Optical fiber tip‑based quartz‑enhanced photoacoustic sensor for trace gas detection
Z. Li, Z. Wang, C. Wang, W. Ren, Appl. Phys. B, 2016, 122:147.,
# 111 Mid-infrared heterodyne phase-sensitive dispersion spectroscopy in flame measurements
L. Ma, Z. Wang, K.-P. Cheong, H. Ning, W. Ren, Pro. of the Comb. Inst., Vol.37, Issue 2, 2019, pp. 1329 - 1336.,
# 112 Non-uniform temperature and species concentration measurements in a laminar flame using multi-band infrared absorption spectroscopy
L. Ma, L. Y. Lau, W. Ren, Appl. Phys. B, 2017, 123: 83.,
# 113 Characterization of temperature and soot volume fraction in laminar premixed flames: laser absorption / extinction measurement and two-dimensional computational fluid dynamics modeling;
L. Ma, H. Ning, J. Wu, K.-P. Cheong, W. Ren, Energy Fuels, Vol.32, 2018, pp. 12962 − 12970.,
# 114 Interband cascade laser absorption sensor for real-time monitoring of formaldehyde filtration by a nanofiber membrane
C. Yao, Z. Wang, Q. Wang, Y. Bian, C. Chen, L. Zhang, W. Ren , App. Optics, Vol.57, No.27, 20.September 2018, 8005.,
# 115 A portable low-power QEPAS-based CO2 isotope sensor using a fiber-coupled interband cascade laser
Z. Wanga, Q. Wanga, J. Y.-L. Chingb, J. C.-Y. Wub, G. Zhangc, W. Rena , Sensors and Actuators, B 246, 2017, pp. 710–715.,
# 116 Nitric oxide analysis down to ppt levels by optical-feedback cavity-enhanced absorption spectroscopy
L. Richard, D. Romanini, I. Ventrillard, Sensors, MDPI, Vol.18, Iss.7, 2018,
# 117 The driver design for N2O gas detection system based on tunable interband cascade laser
L. Liao, J. Zhang, D. Dong, E3S Web Conf., Vol.78, 2019, 03002.,
# 118 Metrological quantification of CO in biogas using laser absorption spectroscopy and gas chromatography
J. A. Nwaboh, S. Persijn, K. Arrhenius, H. Bohlén, O. Werhahn, V. Ebert, Meas. Sci. Technol., Vol.29, No.9, 2018,
# 119 Interband cascade laser based quartz-enhanced photoacoustic sensor for multiple hydrocarbons detection
A. Sampaolo, S. Csutak, P. Patimisco, M. Giglio, G. Menduni, V. Passaro, F. K. Tittel, M. Deffenbaugh, V. Spagnolo, Proc. SPIE 10540, Quantum Sensing and Nano Electronics and Photonics XV , 26th January 2018, 105400C,
# 120 Single-ended mid-infrared laser-absorption sensor for time-resolved measurements of water concentration and temperature within the annulus of a rotating detonation engine
W. Y. Peng, S. J. Cassady, C. L. Strand, C. S. Goldenstein, R. Mitchell Spearrin, C. M. Brophy, J. B. Jeffries, R. K. Hanson, Proc. of the Comb. Inst., Vol.37, Iss.2, 2019, pp. 1435 - 1443.,
# 121 A comparative laser absorption and gas chromatography study of low-temperature n-heptane oxidation intermediates
A. M. Ferris, J. W. Streicher, A. J. Susa, D. F. Davidson, R. K. Hanson , Proc. of the Comb. Inst., Vol.37, Iss.1, 2019, pp. 249-257.,
# 122 A streamlined approach to hybrid-chemistry modeling for a low cetane-number alternative jet fuel
N. H. Pinkowski, Y. Wang , S. J. Cassady , D. F. Davidson , R. K. Hanson , Combustion and Flame, Vol.208, October 2019, pp. 15-26.,
# 123 Multi-wavelength speciation of high-temperature 1-butene pyrolysis
N. H. Pinkowski, S. J. Cassady, D. F. Davidson, R. K. Hanson, Fuel, Vol. 244, 15th May 2019, pp. 269-281.,
# 124 Tomographic laser absorption imaging ofcombustion species and temperature in the mid-wave infrared
C. Wei, D. I. Pineda, C. S. Goldenstein, R. M. Spearrin, Opt. Exp., Vol. 26, Iss. 16, 2018, pp. 20944 - 20951.,
# 125 Time-resolved laser absorption imaging of ethane at 2 kHz in unsteady partially premixed flames
K. K. Schwarm, C. Wei, D. I. Pineda, R. M. Spearrin, Appl. Opt., Vol. 58, Iss. 21, Juli 2019, pp. 5656 - 5662.,
# 126 Contrast enhancement of surface layers with fast middle-infrared scanning
T. Kümmel, T. Teumer, P. Dörnhofer, F.-J. Methner, B. Wängler, M. Rädle, Heliyon, Vol. 5, Iss. 9, September 2019,
# 127 Narrow linewidth characteristics of interband cascade lasers
Y. Deng , B.-B. Zhao, X.-G. Wang, C. Wang, Appl. Phys. Lett., Vol.116, 2020, 201101,
# 128 Quartz-enhanced photoacoustic spectroscopy for hydrocarbon trace gas detection and petroleum exploration
A. Sampaoloa, G. Mendunib,P. Patimiscoa, M. Giglioa, V. M.N. Passaroc, L. Donga, H. Wua, F. K. Tittel, V. Spagnoloa, , Fuel, Vol.277, 2020,
# 129 Sub-ppb-level CH4 detection by exploiting a low-noise differential photoacoustic resonator with a room-temperature interband cascade laser
H. Zhen, Y. Liu, H. Lin, R. Kan, P. Patimisco, A. Sampaolo, M. Giglio, W. Zhu, J. Yu, F. K. Tittel, V. Spagnolo, Z. Chen, Opt. Expr., Vol. 28, Iss. 13, 2020, p. 19446.,
# 130 Simple electrical modulation scheme for laser feedback imaging
K. Bertling, T. Taimre, G. Agnew, Y. L. Lim, P. Dean, D. Indjin, S. Höfling, R. Weih, M. Kamp, M. v. Edlinger, J. Koeth, Aleksandar D. Rakic, IEEE Sens. Jour., Vol.16, No. 7, April, 1, 2016, pp. 1937-1942.,
# 131 Unveiling quantum-limited operation of interband cascade lasers
S. Borri , M. Siciliani de Cumis , S. Viciani , F. D’Amato, P. De Natale, APL Phot., Vol.5, Iss.3, 2020, 036101,
# 132 Light and microwaves in laser frequency combs: an interplay of spatio-temporal phenomena
M. Piccardo, D. Kazakov, B. Schwarz, P. Chevalier, A. Amirzhan, Y. Wang, F. Xie, K. Lascola, S. Becker, L. Hildebrandt, R. Weih, A. Belyanin, F. Capasso, San Jose, CA, USA, 2019, , 2019 Conference on Lasers and Electro-Optics (CLEO), 2019, pp. 1-2.,
# 133 Midinfrared sensor system based on tunable laser absorption spectroscopy for dissolved carbon dioxide analysis in the south china sea: system-level integration and deployment
Z. Liu, C. Zheng, T. Zhang, Y. Li, Q. Ren, C. Chen, W. Ye, Y. Zhang, Y. Wang, F. K. Tittel, Anal. Chem., Vol. 92, Iss. 12, 2020, pp. 8178 − 8185.,
# 134 Deep neural network inversion for 3D laser absorption imaging of methane in reacting flows
C. Wei, K. K. Schwarm, D. I. Pineda, R. M. Spearrin, , Opt. Lett, Vol.45, No.8, 2020, p. 2447.,
# 135 Interband cascade laser absorption of hydrogen chloride for high-temperature thermochemical analysis of fire-resistant polymer reactivity
D. I. Pineda, J. L. Urban, R. M. Spearrin,, , Appl. Opt., Vol.59, No.7, 2020, pp. 2141-2148.,
# 136 Temperature-dependent line mixing in the R-branch of the v3 band of methane
J. Li, A. P. Nair, K. K. Schwarm, D. I. Pineda, R. M. Spearrin, Journal of Quantitative Spectroscopy & Radiative Transfer, No.255, 2020, 107271.,
# 137 Line mixing and broadening of carbon dioxide by argon in the v3 bandhead near 4.2 μm at high temperatures and high pressures
D. D. Lee, F. A. Bendana, A. P. Nair, D. I. Pineda , R. M. Spearrin, , Journal of Quantitative Spectroscopy & Radiative Transfer, No. 253, 2020, 107135,
# 138 High efficiency mid-infrared interband cascade LEDs grown on low absorbing substrates emitting >5 mW of output power
N. Schäfer, J. Scheuermann, R. Weih, J. Koeth, S. Höfling, Opt. Eng., 58(11), 2019, 117106.,
# 139 Development of a Method for Non‐Invasive Measurement of Absolute Pressure in Partially Transparent Containers with Carbonated Beverages
M. Grafen, M. Falkenstein, A. Ostendorf, C. Esen, , Vol. 92, Iss. 11, Spec. Iss.: Bioraffinerien, Nov. 2020, , Chemie, Ingenieur, Technik, November 2020, pec. Iss.: Bioraffinerien, 2020, pp 1830 - 1839.,
# 140 Interband cascade laser arrays for simultaneous and selective analysis of C1–C5 hydrocarbons in petrochemical industry
J. Scheuermann, P. Kluczynski, K. Siembab, M. Straszewski, J. Kaczmarek, R. Weih, M. Fischer, J. Koeth, A. Schade, S. Höfling, Appl. Spectrosc, January 2021, 2021,
# 141 Atmospheric CH4 measurement near a landfill using an ICL-based QEPAS sensor with V-T relaxation self-calibration
H. Wu, L. Dong, X. Yin, A. Sampaolo, P. Patimisco, W. Ma, L. Zhang, W. Yin, L. Xiao, V. Spagnolo, S. Jia, Sensors and Actuators B: Chemical, Vol.297, 2019, 126753.,
# 142 Methane, ethane and propane detection using a compact quartz enhanced photoacoustic sensor and a single interband cascade laser
A. Sampaolo, S. Csutak, P. Patimisco, M. Giglio, G. Menduni, V. Passaro, F. K. Tittel, M. Deffenbaugh, V. Spagnolo, Sensors and Actuators B: Chemical, Vol. 282, 2019, pp. 952-960.,
# 143 Optical detection of formaldehyde in air in the 3.6 µm range
M. Winkowski, T. Stacewicz, , Biomed Opt. Expr.,, Dezember 2020, 2020, pp. 7019–7031.,
# 144 Accurate analysis of HCl in biomethane using laser absorption spectroscopy and ion-exchange chromatography
J. A. Nwaboh, H. Meuzelaar, J. Liu, S. Persijn, J. Li, A. M. H. van der Veen, N. Chatellier, A. Papin, Z. Qu, O. Werhahna, V. Eberta, Analyst, Iss. 4, 2021.,
# 145 High resolution spectra of 13C ethane and propane isotopologues photoacoustically measured using interband cascade lasers near 3.33 and 3.38 μm, respectively
A. Loh, M. Wolff, Journal of Quantitative Spectroscopy & Radiative Transfer, 227, 2019, pp. 111 – 116.,
# 146 Multivariate analysis of photoacoustic spectra for the detection of short-chained hydrocarbon isotopologues
A. Loh, M. Wolff, MDPI, 2020, 25, 2266.,
# 147 Hydrogen sensor based on tunable diode laser absorption spectroscopy
V. Avetisov, O. Bjoroey, J. Wang, P. Geiser, K. G. Paulsen, Sensors, Vol.19, Iss.23, 2019, 5313.,
# 148 Development of a dew/frost point temperature sensor based on tunable diode laser absorption spectroscopy and its application in a cryogenic wind tunnel
W. Nie, Z. Xu, R. Kan, J. Ruan, L. Yao, B. Wang, Y. He, Sensors, Vol.18, Iss.8, 2018, 2704.,
# 149 Extraordinary evanescent field confinement waveguide sensor for mid-infrared trace gas spectroscopy
M. Vlk, A. Datta, S. Alberti, H. D. Yallew, V. Mittal, G. S. Murugan, J. Jagerska, Light Sci. Appl., Vol. 10, Art.26, 2021,
# 150 In‑situ thermochemical analysis of hybrid rocket fuel oxidation via laser absorption tomography of CO, CO2, and H2O
F. A. Bendana, I. C. Sanders, J. J. Castillo, C. G. Hagström, D. I. Pineda, R. M. Spearrin, Experiments in Fluids, Iss. 9, Art. 190, 2020,
# 151 The interband cascade laser
J. R. Meyer, W. Bewley, C. L. Canedy, C. S. Kim, M. Kim, C. D. Merritt, I. Vurgaftman, Photonics, Vol. 7, No. 3 (75), 2020,
# 152 Additive manufacturing ecosystem continues to adapt to industry demands
F. Moglia, EPIC Insights, euroPHOTONICS, Summer 2021, pp. E16 - E19,
# 153 MHz-rate Laser Spectroscopic Instrument for Reacting Flow Composition and Temperature Measurements inside Rotating Detonation Engines
K. Thurmond, S. Vasu, J. Stout, S. B. Coogan, K. A. Ahmed, I. B. Dunn, S. White, C. Nolen, AIAA, Joint Propulsion Conference, Session: Measurement and Diagnostic Techniques II, 2018,
# 154 Measurements of H2O, CO2, CO and Static Temperature inside Rotating Detonation Engines
K. Thurmond, K. A. Ahmed, S. Vasu, AIAA, SciTech Forum, Session: Detonative Pressure Gain Combustion I, 2019,
# 155 Time-resolved CO2 concentration and ignition delay time measurements in the combustion processes of n-butane/hydrogen mixtures
H. Dong, P. Zhimin, D. Yanjun, Combustion and Flame, Vol. 207, 2019, 222 - 231,
# 156 Ignition-delay-time/time-resolved CO2-concentration measurements during the combustion of iC4H10/H2 mixtures
D. He, Z. Peng, Y. Ding, Fuel, Vol. 284, 2021,
# 157 MHz laser absorption spectroscopy via diplexed RF modulation for pressure, temperature, and species in rotating detonation rocket flows
A. Nair, D. Lee, D. I. Pineda, J. Kriesel, W. A. Hargus Jr., J. W. Bennewitz, S. A. Danczyk, R. M. Spearrin, Appl. Phys. B, Lasers and Optics, 126, 2020,
# 158 Optical Wireless Link Operated at the Wavelength of 4.0 µm with Commercially Available Interband Cascade Laser
J. Mikołajczyk, R. Weih, M. Motyka, Sensors, Vol. 21, 2021,
# 159 Direct absorption spectroscopy baseline fitting for blended absorption features
J. M. Weisberger, J. P. Richter, R. A. Parker, P. E. DesJardin, Appl. Optics, 2018,
# 161 Broadband mid-infrared molecular spectroscopy based on passive coherent optical–optical modulated frequency combs
Z. Zuo, C. Gu, D. Peng, X. Zou, Y. Di, L. Zhou, D. Luo, Y. Liu, W. Li , Photonics Research, Vol. 9, Iss. 7, 2021, 1358-1368,
# 162 Methane leak detection by tunable laser spectroscopy and mid-infrared imaging
T. Strahl, J. Herbst, A. Lambrecht, E. Maier, J. Steinebrunner, J. Wöllenstein , Appl. Optics, Vol. 60, No. 15, 2021, C68-C75,
# 163 Towards a dTDLAS‑Based Spectrometer for Absolute HCl Measurements in Combustion Flue Gases and a Better Evaluation of Thermal Boundary Layer Effects
Z. Qu, J. Nwaboh, O. Werhahn, V. Ebert, Flow, Turbulence and Combustion, 106, 2021, 533 - 546,
# 164 Determining the most suitable spectral range for TDLS –a quantitative approach
M.-S. Bahr, B. Baumann, M. Wolff, Journal of Quantitative Spectroscopy & Radiative Transfer, Vol. 286, 2022,
# 165 Near-Surface Carbon-Dioxide Tunable Diode Laser Absorption Spectroscopy Concentration Measurements in Hypervelocity Flow
J. M. Weisberger, P. E. DesJardin, M. MacLean, R. Parker, Z. Carr, J. of Spacecraft and Rockets, Vol. 52, No. 6, 2015, 1551 - 1562,
# 166 Mid-infrared hyperchaos of interband cascade lasers
Y. Deng, ZF. Fan, BB. Zhao et al. , Light Sci. Appl., 11, 2022,
# 167 Analysis of the Stable Isotope Ratios (18O/16O, 17O/16O, and D/H) in Glacier Water by Laser Spectrometry
X. Cui, W. Chen, M. W. Sigrist, E. Fertein, P. Flament, K. De Bondt, N. Mattielli, analytical chemistry, 92, 2020, 4512−4517,
# 168 High resolution gas mid-infrared spectroscopy using circular multireflection (CMR) cell
T. Phan, D. Tran, J. Esper, C. Nixon, and G. Nehmetallah, Proc. SPIE, 11741, Infrared Technology and Applications XLVII, 2021,
# 169 Carbon dioxide mid-infrared laser spectroscopy with a circular multireflection (CMR) cell
T. Phan, D. Tran, J. Esper, C. Nixon, G. Nehmetallah, SPIE Proc., 12116, Chemical, Biological, Radiological, Nuclear, and Explosives (CBRNE) Sensing XXIII, 2022,
# 170 Mitigating Valence Intersubband Absorption in Interband Cascade Lasers
H. Knötig, J. Nauschütz, N. Opačak, S. Höfling, J. Koeth, R. Weih, B. Schwarz, Laser & Photonics Rev., 16, 2022, 2200156,

Did you publish a relevant paper or article? Let us know. We would appreciate including it in our literature list.