METHOD OF MAKING BULK WAVEGUIDE

FIELD: physics, optics.SUBSTANCE: invention relates to the technology of producing optical waveguides, i.e., light-conducting and light-controlling structures, placed in a glass volume. The method of making a bulk waveguide includes moving a focused laser beam relative to a plate or a plate relative...

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Hauptverfasser:	KOSTJUK GALINA KIRILLOVNA, SERGEEV MAKSIM MIKHAJLOVICH, VEJKO VADIM PAVLOVICH, ZAKOLDAEV ROMAN ALEKSEEVICH, JAKOVLEV EVGENIJ BORISOVICH
Format:	Patent
Sprache:	eng ; rus
Schlagworte:	BASIC ELECTRIC ELEMENTS CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS CHEMISTRY ELECTRICITY GLASS JOINING GLASS TO GLASS OR OTHER MATERIALS METALLURGY MINERAL OR SLAG WOOL OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS OPTICS PHYSICS RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS SURFACE TREATMENT OF GLASS WAVEGUIDES
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Beschreibung
Zusammenfassung:	FIELD: physics, optics.SUBSTANCE: invention relates to the technology of producing optical waveguides, i.e., light-conducting and light-controlling structures, placed in a glass volume. The method of making a bulk waveguide includes moving a focused laser beam relative to a plate or a plate relative to a focused laser beam until the completion of formation of the waveguide and subsequent heat treatment of the plate with the waveguide in a furnace. Before forming the waveguide, a plate of porous optical material is placed in a chamber in which, at room temperature, relative air humidity is kept not lower than 60% and not higher than 80% for not less than 72 hours but not more than 96 hours. Local laser action is carried out by a focused laser beam in the plane of a layer lying at a depth equal to j the thickness of the plate, with power density not lower than 1.5·10W/cmand not higher than 2.5·10W/cm. Movement of the focused laser beam relative to the plate or the plate relative to the focused laser beam is carried out with a speed of not less than 3 mcm/s but not greater than 20 mcm/s multiple times until the waveguide is formed. The plate with the waveguide then undergo heat treatment at temperature not lower than 870°C but not higher than 890°C for not less than 10 min and not more than 20 min, wherein heating of the plate with the waveguide to temperature not higher than 140°C is carried out at a rate of not more than 5°C/min, and the plate with the waveguide is cooled after heat treatment by turning off the furnace.EFFECT: higher distinction between refraction indices of the core and cladding and reduced losses of the optical signal transmitted through the waveguide.15 dwg Изобретение относится к технологии изготовления оптических волноводов, то есть светопроводящих и светоуправляющих структур, расположенных в объеме стекла. Техническим результатом изобретения является увеличение различия в показателях преломления сердцевина-оболочка и уменьшение потерь, передаваемых по волноводу, оптического сигнала. Способ изготовления объемного волновода включает перемещение сфокусированного лазерного пучка относительно пластины или пластины относительно сфокусированного лазерного пучка до окончания формирования волновода и последующей термической обработки пластины с волноводом в печи. При этом перед формированием волновода пластину из пористого оптического материала помещают в камеру, в которой при комнатной температуре поддерживают относительную влажность воздуха