Laser micromachining of optical fibre: an instrumentation enabler

被引：0

作者：

Galarneau, Pierre ^{[1
]}

Levesque, Marc ^{[1
]}

Beaulieu, Rene ^{[1
]}

Caron, Serge ^{[1
]}

Cournoyer, Alain ^{[1
]}

Fortin, Michel ^{[1
]}

Proulx, Antoine ^{[1
]}

机构：

[1] INO, Quebec City, PQ G1P 4S4, Canada

来源：

LASER ASSISTED NET SHAPE ENGINEERING 6, PROCEEDINGS OF THE LANE 2010, PART 1 | 2010年 / 5卷

关键词：

laser micromachining; optical fibre; instrumentation;

D O I：

10.1016/j.phpro.2010.08.170

中图分类号：

O59 [应用物理学];

学科分类号：

摘要：

The use of lasers to process optical fibre at INO goes back in the early '90 when a team developed a CO2 laser-based process to anneal fibre-end surface allowing the lowest back reflection-loss connectors commercially available at that time. Since then, INO has developed several processes for stripping, cleaving, polishing, end-shaping, machining, bending, welding, soldering and packaging optical fibres. More recently, INO has used laser micromachining of optical fibres in order to enable innovative instrumentation in the field of chemical sensors, flow cytometry and gas chromatography. (C) 2010 Published by Elsevier B. V.

引用

页码：477 / 482

页数：6

共 50 条

[11] Laser amplifiers in optical displays and micromachining systems
Petrash, GG
Chvykov, VV
Zemskov, KI
MICROELECTRONIC STRUCTURES AND MEMS FOR OPTICAL PROCESSING IV, 1998, 3513 : 113 - 120
[12] Fibre-optical MEMS switches based on bulk silicon micromachining
M. Hoffmann
P. Kopka
D. Nüsse
E. Voges
Microsystem Technologies, 2003, 9 (5) : 299 - 303
[13] Fibre-optical MEMS switches based on bulk silicon micromachining
Hoffmann, M
Kopka, P
Nüsse, D
Voges, E
MICROSYSTEM TECHNOLOGIES-MICRO-AND NANOSYSTEMS-INFORMATION STORAGE AND PROCESSING SYSTEMS, 2003, 9 (05): : 299 - 303
[14] Optical fibre laser for telecommunications
Cisternino, F.
Girardi, R.
Pagano, A.
Riccardi, E.
CSELT Technical Reports, 1997, 25 (04): : 685 - 699
[15] Laser cooling of an optical fibre
Rayner, A.
Heckenberg, N.R.
Rubinsztein-Dunlop, H.
Conference on Quantum Electronics and Laser Science (QELS) - Technical Digest Series, 2000,
[16] Optical coherence tomography for process control of laser micromachining
Wiesner, Markus
Ihlemann, Juergen
Mueller, Heike H.
Lankenau, Eva
Huettmann, Gereon
REVIEW OF SCIENTIFIC INSTRUMENTS, 2010, 81 (03):
[17] Integrated optical waveplates fabricated by femtosecond laser micromachining
Corrielli, G.
Crespi, A.
Geremia, R.
Ramponi, R.
Sansoni, L.
Santinelli, A.
Mataloni, P.
Sciarrino, F.
Osellame, R.
FRONTIERS IN ULTRAFAST OPTICS: BIOMEDICAL, SCIENTIFIC, AND INDUSTRIAL APPLICATIONS XIV, 2014, 8972
[18] MICROMACHINING OF OPTICAL FIBRES WITH A NANOSECOND LASER FOR OPTICAL COMMUNICATION AND SENSOR APPLICATIONS
Schmieder, D.
Samaradiwakera, R.
Meyer, J.
SAIEE AFRICA RESEARCH JOURNAL, 2011, 102 (03): : 58 - 65
[19] Laser micromachining of optical materials with a 157nm fluorine laser
Greuters, J
Rizvi, NH
LASER MICROMACHINING FOR OPTOELECTRONIC DEVICE FABRICATION, 2003, 4941 : 77 - 83
[20] Advanced laser micromachining processes for MEMS and optical applications
Holmes, Andrew S.
Pedder, James E. A.
Boehlen, Karl L.
HIGH-POWER LASER ABLATION VI, PTS 1 AND 2, 2006, 6261

← 1 2 3 4 5 →