000131428 001__ 131428
000131428 005__ 20180913055041.0
000131428 037__ $$aCONF
000131428 245__ $$aHigh performance wavelength-tunable filter based on in-fiber Bragg grating and electrically resistive coating
000131428 269__ $$a1997
000131428 260__ $$bIEEE$$c1997
000131428 336__ $$aConference Papers
000131428 490__ $$aConference on Lasers and Electro-Optics Europe - Technical Digest
000131428 500__ $$aSwiss Federal Inst of Technology, Lausanne, Switz
000131428 500__ $$aCompilation and indexing terms, Copyright 2008 Elsevier Inc.
000131428 500__ $$a97073743695
000131428 500__ $$aWavelength tunable filters
000131428 500__ $$aBragg gratings
000131428 520__ $$aAn all-fiber tunable filter device that uses a resistive fiber coating to directly heat an intra-core Bragg grating is presented. Bragg gratings were fabricated in a hydrogen-loaded standard telecommunication fiber by a KrF excimer laser with a fluence of 50 mJ/cm2 per pulse. Electrical connections were realized with gold wires at the ends of the coated section and a total resistance of 38 Ω was measured. A large wavelength tuning range of 2.15 nm was obtained by application of a low electrical power of 0.54 W.
000131428 6531_ $$a[OFD]
000131428 6531_ $$aOptical filters
000131428 6531_ $$aDiffraction gratings
000131428 6531_ $$aExcimer lasers
000131428 6531_ $$aLaser beams
000131428 6531_ $$aMagnetron sputtering
000131428 6531_ $$aOptical coatings
000131428 6531_ $$aThermal expansion
000131428 6531_ $$aOptical fibers
000131428 6531_ $$aLight reflection
000131428 700__ $$aKy, Nguyen Hong
000131428 700__ $$0240486$$aLimberger, H. G.$$g105668
000131428 700__ $$aCostantini, D. M.
000131428 700__ $$aSalathe, R. P.
000131428 700__ $$aMuller, C. A. P.
000131428 700__ $$aFox, G. R.
000131428 909C0 $$0252008$$pLOA$$xU10346
000131428 909C0 $$0252499$$pSCI-STI-HL$$xU12587
000131428 909CO $$ooai:infoscience.tind.io:131428$$pconf$$pSTI
000131428 937__ $$aLOA-CONF-1997-002
000131428 973__ $$aEPFL$$sPUBLISHED
000131428 980__ $$aCONF