Optical Heterodyne-Enhanced Chirped Laser Dispersion Spectroscopy

Genevieve Plant; Yifeng Chen; Gerard Wysocki

Optical Heterodyne-Enhanced Chirped Laser Dispersion Spectroscopy

Genevieve Plant, Yifeng Chen, Gerard Wysocki

Research output: Contribution to journal › Conference article › peer-review

Abstract

A proof of concept heterodyne-enhanced chirped laser dispersion spectroscopy system is presented. In remote sensing systems, where low return powers are expected, the addition of an optical local oscillator and subsequent non-linear processing allows for improved performance.

Original language	English (US)
Article number	SF1H.6
Journal	Optics InfoBase Conference Papers
State	Published - 2016
Event	CLEO: Science and Innovations, SI 2016 - San Jose, United States Duration: Jun 5 2016 → Jun 10 2016

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Mechanics of Materials

Cite this

@article{11a4d87cf2bb4b449277513a0a71fabc,

title = "Optical Heterodyne-Enhanced Chirped Laser Dispersion Spectroscopy",

abstract = "A proof of concept heterodyne-enhanced chirped laser dispersion spectroscopy system is presented. In remote sensing systems, where low return powers are expected, the addition of an optical local oscillator and subsequent non-linear processing allows for improved performance.",

author = "Genevieve Plant and Yifeng Chen and Gerard Wysocki",

note = "Funding Information: Acknowledgments: The authors would like to acknowledge financial support by the NSF ERC MIRTHE award EEC-0540832 and from a generous contribution by Lynn and Thomas Ou. 5. References 1. G. Wysocki and D. Weidmann, {"}Molecular dispersion spectroscopy for chemical sensing using chirped mid-infrared quantum cascade laser,{"} Optics Express 18, 26123-26140 (2010). 2. M. Nikodem, G. Plant, D. Sonnenfroh, and G. Wysocki, {"}Open-path sensor for atmospheric methane based on chirped laser dispersion spectroscopy,{"} Applied Physics B 119, 3-9 (2015). 3. M. Nikodem and G. Wysocki, {"}Measuring optically thick molecular samples using chirped laser dispersion spectroscopy,{"} Optics Letters 38, 3834-3837 (2013). 4. A. Hangauer and G. Wysocki, {"}Simultaneous ranging and remote sensing utilizing chirped laser dispersion spectroscopy,{"} in CLEO: 2014 Postdeadline Paper Digest, OSA Technical Digest (online) (Optical Society of America, 2014), STh5C.5. 5. G. Plant, A. Hangauer, and G. Wysocki, {"}Fundamental Limits in Chirped Laser Dispersion Spectroscopy,{"} in CLEO: 2015, OSA Technical Digest (online) (Optical Society of America, 2015), SM1O.2. 6. A. Hangauer and G. Wysocki, {"}Electrical, parametric down-conversion methodology for high-speed, low-noise, and narrow-bandwidth photodetection,{"} in CLEO: 2014, OSA Technical Digest (online) (Optical Society of America, 2014), SM4E.5. 7. P. Martin-Mateos, B. Jerez, and P. Acedo, {"}Heterodyne architecture for tunable laser chirped dispersion spectroscopy using optical processing {"} Optics Letters 39, 2611-2613 (2014). Publisher Copyright: {\textcopyright} OSA 2016.; CLEO: Science and Innovations, SI 2016 ; Conference date: 05-06-2016 Through 10-06-2016",

year = "2016",

language = "English (US)",

journal = "Optics InfoBase Conference Papers",

issn = "2162-2701",

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TY - JOUR

T1 - Optical Heterodyne-Enhanced Chirped Laser Dispersion Spectroscopy

AU - Plant, Genevieve

AU - Chen, Yifeng

AU - Wysocki, Gerard

N1 - Funding Information: Acknowledgments: The authors would like to acknowledge financial support by the NSF ERC MIRTHE award EEC-0540832 and from a generous contribution by Lynn and Thomas Ou. 5. References 1. G. Wysocki and D. Weidmann, "Molecular dispersion spectroscopy for chemical sensing using chirped mid-infrared quantum cascade laser," Optics Express 18, 26123-26140 (2010). 2. M. Nikodem, G. Plant, D. Sonnenfroh, and G. Wysocki, "Open-path sensor for atmospheric methane based on chirped laser dispersion spectroscopy," Applied Physics B 119, 3-9 (2015). 3. M. Nikodem and G. Wysocki, "Measuring optically thick molecular samples using chirped laser dispersion spectroscopy," Optics Letters 38, 3834-3837 (2013). 4. A. Hangauer and G. Wysocki, "Simultaneous ranging and remote sensing utilizing chirped laser dispersion spectroscopy," in CLEO: 2014 Postdeadline Paper Digest, OSA Technical Digest (online) (Optical Society of America, 2014), STh5C.5. 5. G. Plant, A. Hangauer, and G. Wysocki, "Fundamental Limits in Chirped Laser Dispersion Spectroscopy," in CLEO: 2015, OSA Technical Digest (online) (Optical Society of America, 2015), SM1O.2. 6. A. Hangauer and G. Wysocki, "Electrical, parametric down-conversion methodology for high-speed, low-noise, and narrow-bandwidth photodetection," in CLEO: 2014, OSA Technical Digest (online) (Optical Society of America, 2014), SM4E.5. 7. P. Martin-Mateos, B. Jerez, and P. Acedo, "Heterodyne architecture for tunable laser chirped dispersion spectroscopy using optical processing " Optics Letters 39, 2611-2613 (2014). Publisher Copyright: © OSA 2016.

PY - 2016

Y1 - 2016

N2 - A proof of concept heterodyne-enhanced chirped laser dispersion spectroscopy system is presented. In remote sensing systems, where low return powers are expected, the addition of an optical local oscillator and subsequent non-linear processing allows for improved performance.

AB - A proof of concept heterodyne-enhanced chirped laser dispersion spectroscopy system is presented. In remote sensing systems, where low return powers are expected, the addition of an optical local oscillator and subsequent non-linear processing allows for improved performance.

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M3 - Conference article

AN - SCOPUS:85136598906

SN - 2162-2701

JO - Optics InfoBase Conference Papers

JF - Optics InfoBase Conference Papers

M1 - SF1H.6

T2 - CLEO: Science and Innovations, SI 2016

Y2 - 5 June 2016 through 10 June 2016

ER -

Optical Heterodyne-Enhanced Chirped Laser Dispersion Spectroscopy

Abstract

All Science Journal Classification (ASJC) codes

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