Loss-Loss PE: LiNbO3, Waveguide Bends at Lambda = 1.55 Micrometers

Waveguide bends are essential elements in the design of integrated optical devices. Various bend configurations have been studied mostly for titanium-indiffused lithium niobate waveguides.Among them, S-shaped bends have been widely used in integrated optical devices. The main goal of waveguide bend...

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Main Authors: Januar, Indra, Mickelson, Alan R
Format: Report
Language:English
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Component Reports
CONFIGURATIONS
LENGTH
LITHIUM NIOBATES
LOW LOSS
OPTICAL WAVEGUIDES
Optics
SEPARATION
STRUCTURES
TITANIUM
TRANSMISSION LOSS
WAVEGUIDE BENDS
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Mickelson, Alan R
description Waveguide bends are essential elements in the design of integrated optical devices. Various bend configurations have been studied mostly for titanium-indiffused lithium niobate waveguides.Among them, S-shaped bends have been widely used in integrated optical devices. The main goal of waveguide bend studies has been to achieve the minimum transition length that can be tolerated for acceptably low bend loss. Losses as low as 0.2 dB have been reported in titanium-indiffused waveguides for a transition between off set parallel waveguides with a 0.1 mm lateral and 3.25 mm longitudinal separation. Here we report on very-low-loss PE:LiNbO3 waveguide bend structures at lambda = 1.55 micrometers. This Article is from 'Integrated Photonics Research'. Volume 10, AD-A255 423, p252-253.
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source DTIC Technical Reports
subjects Component Reports
CONFIGURATIONS
LENGTH
LITHIUM NIOBATES
LOW LOSS
OPTICAL WAVEGUIDES
Optics
SEPARATION
STRUCTURES
TITANIUM
TRANSMISSION LOSS
WAVEGUIDE BENDS
title Loss-Loss PE: LiNbO3, Waveguide Bends at Lambda = 1.55 Micrometers
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