Fiber Fabry-Perot Interferometers, FFP-I and picoWave0 pages

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Fiber Fabry-Perot Interferometer FFP-I

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Applications

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• Spectrum Sliced Source

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• ITU Filter

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• Calibrated Wavelength Reference

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• Laser Stabilization

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• WDM Emulation

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• Optical Sensing

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Description

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The Micron Optics FFP-I, Fiber Fabry-Perot Interferometer family of products is based on

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a fixed interferometer design with smooth, uniformly spaced transmission peaks. The

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FFP-I consists of a lensless plane Fabry-Perot Interferometer with a single-mode optical

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fiber waveguide between two highly reflective multilayer mirrors. The FFP-I is manu-

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factured directly with optical fibers so no alignment or mode-matching is required. The

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distances between peaks (FSR) may be designed exactly to customer specifications and

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a TEC package is available for thermal stability and minor adjustments of the bandpass

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frequency or wavelength

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Features

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• Uniformly spaced transmission peaks

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• Small footprint

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• Vibration and shock resistant

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• Low loss

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• No alignment required

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FFP-I, FFP-ITU, p/coWave®

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FFP-I

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p/coWave®

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The p/coWave® is Micron Optics' patented multi-wavelength reference that enables real

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time wavelength calibration to picometer accuracy. Combining the uniform frequency

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spacing of the FFP-I, a wavelength marker of a Fiber Bragg Grating, and a built-in TEC for

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thermal stability, the p/coWave® makes an ideal calibrated wavelength reference. The

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FFP-I and FBG can be configured in Series or in Parallel (see diagrams below)

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p/coWave® (Serial Configuration) p/coWave® (Parallel Configuration)

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X Marker

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X Marker

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TUNED Products displaying the " Micron OpticsTuned" logo include Micron Optics tunable technologies insuring high quality and performance

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