Low-cost athermal wavelength-locker integrated in a temperature-tuned single-frequency laser package

Low-cost athermal wavelength-locker integrated in a temperature-tuned single-frequency laser package

A package-integrated, compact, low-cost, athermal wavelength locker is introduced. It uses a novel etalon material, Schnaelite, to reduce environmental temperature sensitivity well over an order of magnitude compared to commercially available fused silica based lockers. Thermo-optical properties of...

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Veröffentlicht in:Journal of lightwave technology 2004-01, Vol.22 (1), p.166-171
Hauptverfasser: Ackerman, D.A., Paget, K.M., Schneemeyer, L.F., Ketelsen, L.J.-P., Warning, F.W., Sjolund, O., Graebner, J.E., Kanan, A., Raju, V.R., Eng, L.E., Schaeffer, E.D., Van Emmerik, P.
Format: Artikel
Sprache:eng
Schlagworte:
Energy consumption
Exact sciences and technology
Frequency
Fundamental areas of phenomenology (including applications)
Laser stability
Laser transitions
Lasers
Optical devices
Optical materials
Optical sensors
Optics
Packaging
Physics
Semiconductor lasers
laser diodes
Silicon compounds
Temperature sensors
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Beschreibung
Zusammenfassung:A package-integrated, compact, low-cost, athermal wavelength locker is introduced. It uses a novel etalon material, Schnaelite, to reduce environmental temperature sensitivity well over an order of magnitude compared to commercially available fused silica based lockers. Thermo-optical properties of temperature insensitive etalons are presented. Results demonstrating frequency stability of devices incorporating Schnaelite etalon based discriminators show optical frequency shifts below 1 GHz for large changes in case and laser temperature. This enabling technology promotes future small form-factor, low power consumption, multichannel laser sources.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2004.824186