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1.
2.

Development of an automated diode-laser-based multicomponent gas sensor.

Richter D, Lancaster DG, Tittel FK.

Appl Opt. 2000 Aug 20;39(24):4444-50.

PMID:
11543548
3.

Portable fiber-coupled diode-laser-based sensor for multiple trace gas detection.

Lancaster DG, Richter D, Tittel FK.

Appl Phys B. 1999 Nov-Dec;69:459-65.

PMID:
11542659
4.

Mid-infrared difference-frequency generation source pumped by 1.1-1.5 micrometer dual-wavelength fiber amplifier for trace-gas detection.

Goldberg L, Koplow J, Lancaster DG, Curl RF, Tittel FK.

Opt Lett. 1998 Oct 1;23(19):1517-9.

PMID:
11763099
5.

Yb fiber laser pumped mid-IR source based on difference frequency generation and its application to ammonia detection.

Matsuoka N, Yamaguchi S, Nanri K, Fujioka T, Richter D, Tittel FK.

Jpn J Appl Phys. 2001 Feb;40 Pt 1(2A):625-8.

PMID:
11676447
6.

Development of a tunable mid-IR difference frequency laser source for highly sensitive airborne trace gas detection.

Richter D, Fried A, Wert BP, Walega JG, Tittel FK.

Appl Phys B. 2002;75(2-3):281-8.

PMID:
12599397
7.

Novel diode laser-based sensors for gas sensing applications.

Tittel FK, Lancaster DG, Richter D.

Laser Phys. 2000 Jan-Feb;10(1):348-54.

PMID:
12143895
8.

A difference frequency generation spectrometer and its detection of atmospheric N2O.

Cao Z, Gao X, Deng L, Chen WD, Yuan Y, Zhang W, Gong Z.

Spectrochim Acta A Mol Biomol Spectrosc. 2007 Sep;68(1):74-7. Epub 2006 Nov 9.

PMID:
17307028
9.

Performance characteristics of narrow linewidth fiber laser pumped mid-IR difference frequency mixing light source for methane detection.

Ashizawa H, Ohara S, Yamaguchi S, Takahashi M, Endo M, Nanri K, Fujioka T, Tittel FK.

Jpn J Appl Phys. 2003 Mar;42(3):1263-7.

PMID:
12959140
10.

Trace gas absorption spectroscopy using laser difference-frequency spectrometer for environmental application.

Chen W, Cazier F, Boucher D, Tittel FK, Davies PB.

Laser Phys. 2001 May;11(5):594-9.

PMID:
12143894
11.

Mid-infrared ethene detection using difference frequency generation in a quasi-phase-matched LiNbO3 waveguide.

Grilli R, Ciaffoni L, Hancock G, Peverall R, Ritchie GA, Orr-Ewing AJ.

Appl Opt. 2009 Oct 20;48(30):5696-703. doi: 10.1364/AO.48.005696.

PMID:
19844303
12.

Widely tunable rapid-scanning mid-infrared laser spectrometer for industrial gas process stream analysis.

Bamford DJ, Cook DJ, Sharpe SJ, Van Pelt AD.

Appl Opt. 2007 Jul 1;46(19):3958-68.

PMID:
17571132
13.

Chemical sensing with pulsed QC-DFB lasers operating at 15.6 micrometers.

Kosterev AA, Curl RF, Tittel FK, Rochat M, Beck M, Hofstetter D, Faist J.

Appl Phys B. 2002;75(2-3):351-7.

PMID:
12599401
14.
15.

Mid-infrared difference-frequency generation in periodically poled KTiOAsO(4) and application to gas sensing.

Fradkin-Kashi K, Arie A, Urenski P, Rosenman G.

Opt Lett. 2000 May 15;25(10):743-5.

PMID:
18064170
16.

Difference-frequency-based tunable absorption spectrometer for detection of atmospheric formaldehyde.

Lancaster DG, Fried A, Wert B, Henry B, Tittel FK.

Appl Opt. 2000 Aug 20;39(24):4436-43.

PMID:
11543547
17.

Ambient formaldehyde detection with a laser spectrometer based on difference-frequency generation in PPLN.

Rehle D, Leleux D, Erdelyi M, Tittel F, Fraser M, Friedfeld S.

Appl Phys B. 2001;72(8):947-52.

PMID:
12484352
18.

Widely tunable continuous-wave mid-infrared radiation (5.5-11 microm) by difference-frequency generation in LiInS2 crystal.

Chen W, Poullet E, Burie J, Boucher D, Sigrist MW, Zondy JJ, Isaenko L, Yèlisseyev A, Lobanov S.

Appl Opt. 2005 Jul 1;44(19):4123-9.

PMID:
16004060
19.

Spectroscopic detection of methane by use of guided-wave diode-pumped difference-frequency generation.

Petrov KP, Ryan AT, Patterson TL, Huang L, Field SJ, Bamford DJ.

Opt Lett. 1998 Jul 1;23(13):1052-4.

PMID:
18087426
20.

Widely tunable difference frequency generation source for high-precision mid-infrared spectroscopy.

Liao CC, Lien YH, Wu KY, Lin YR, Shy JT.

Opt Express. 2013 Apr 22;21(8):9238-46. doi: 10.1364/OE.21.009238.

PMID:
23609634
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