Widely tunable laser source for gas sensing applications

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademic

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In gas detection systems based on a single absorption line, wide-range, precision-tunable, continuous-wave laser sources are desired in order to allow for accurate targeting and measuring absorption profiles of particular gas species. A widely tunable ring laser using an intra-cavity wavelength tuning mechanism based on asymmetric Mach-Zehnder interferometers has been realized in the form of a monolithic indium phosphide photonic integrated circuit following a generic photonic integration approach. Furthermore, such integration technology enables the possibility of a co-integration of multiple lasers on a single photonic chip and allowing a gas detection system to monitor a few gas species simultaneously.
Originele taal-2Engels
TitelPhotonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands
StatusGepubliceerd - 2015
Evenement2015 Photonics Event, June 3-4, 2015, Veldhovem, The Netherlands - Veldhoven, Nederland
Duur: 3 jun 20154 jun 2015
http://www.photonics-event.nl/edition-2015/

Congres

Congres2015 Photonics Event, June 3-4, 2015, Veldhovem, The Netherlands
LandNederland
StadVeldhoven
Periode3/06/154/06/15
Internet adres

Vingerafdruk

tunable lasers
photonics
gases
indium phosphides
continuous wave lasers
Mach-Zehnder interferometers
ring lasers
integrated circuits
chips
tuning
cavities
profiles
wavelengths
lasers

Citeer dit

Latkowski, S., & Bente, E. A. J. M. (2015). Widely tunable laser source for gas sensing applications. In Photonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands
Latkowski, S. ; Bente, E.A.J.M. / Widely tunable laser source for gas sensing applications. Photonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands. 2015.
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title = "Widely tunable laser source for gas sensing applications",
abstract = "In gas detection systems based on a single absorption line, wide-range, precision-tunable, continuous-wave laser sources are desired in order to allow for accurate targeting and measuring absorption profiles of particular gas species. A widely tunable ring laser using an intra-cavity wavelength tuning mechanism based on asymmetric Mach-Zehnder interferometers has been realized in the form of a monolithic indium phosphide photonic integrated circuit following a generic photonic integration approach. Furthermore, such integration technology enables the possibility of a co-integration of multiple lasers on a single photonic chip and allowing a gas detection system to monitor a few gas species simultaneously.",
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Latkowski, S & Bente, EAJM 2015, Widely tunable laser source for gas sensing applications. in Photonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands., Veldhoven, Nederland, 3/06/15.

Widely tunable laser source for gas sensing applications. / Latkowski, S.; Bente, E.A.J.M.

Photonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands. 2015.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademic

TY - GEN

T1 - Widely tunable laser source for gas sensing applications

AU - Latkowski, S.

AU - Bente, E.A.J.M.

PY - 2015

Y1 - 2015

N2 - In gas detection systems based on a single absorption line, wide-range, precision-tunable, continuous-wave laser sources are desired in order to allow for accurate targeting and measuring absorption profiles of particular gas species. A widely tunable ring laser using an intra-cavity wavelength tuning mechanism based on asymmetric Mach-Zehnder interferometers has been realized in the form of a monolithic indium phosphide photonic integrated circuit following a generic photonic integration approach. Furthermore, such integration technology enables the possibility of a co-integration of multiple lasers on a single photonic chip and allowing a gas detection system to monitor a few gas species simultaneously.

AB - In gas detection systems based on a single absorption line, wide-range, precision-tunable, continuous-wave laser sources are desired in order to allow for accurate targeting and measuring absorption profiles of particular gas species. A widely tunable ring laser using an intra-cavity wavelength tuning mechanism based on asymmetric Mach-Zehnder interferometers has been realized in the form of a monolithic indium phosphide photonic integrated circuit following a generic photonic integration approach. Furthermore, such integration technology enables the possibility of a co-integration of multiple lasers on a single photonic chip and allowing a gas detection system to monitor a few gas species simultaneously.

M3 - Conference contribution

BT - Photonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands

ER -

Latkowski S, Bente EAJM. Widely tunable laser source for gas sensing applications. In Photonics Event 2015, June 3-4 2015, Veldhoven, The Netherlands. 2015