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FFP-TF2
The Micron Optics FFP-TF2 design
provides improved
etalon alignment for stable long-term, high reliability,
and Telcordia-qualified performance at a more attractive
price. Several standard low-cost configurations are
readily available for quick delivery.
340 nm
widely tunable filter now available! See
the FFP-TF2 9000 datasheet
for more details.
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FFP-I
The Fiber Fabry-Perot Interferometer
(FFP-I) family of products is based on a fixed interferometer
design with smooth, uniformly spaced transmission
peaks. The FFP-I consists of a lensless plane Fabry-Perot
interferometer with a single-mode optical fiber waveguide
between two highly reflective multilayer mirrors.
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FFP-SI
The fiber Fabry-Perot Scanning
Interferometer is a lensless, plane Fabry-Perot interferometer
with a single-mode optical fiber waveguide between
two highly reflective multilayer mirrors that are
deposited directly onto optical fibers.
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FFP-C
The Micron Optics controller
is an electronic piezoelectric actuator driver and
optical signal processor specially designed for the
FFP Tunable Filter or Scanning Interferometer.
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picoWave®
Controller
The picoWave® Controller
is designed to be used in conjunction with the thermo
electric cooler (TEC) equipped Micron Optics picoWave-Fiber
Fabry-Perot Interferometer (FFP-I), where temperature
stability is critical for wavelength reference stability.
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FFP
(Fiber Fabry-Perot)
Technology Overview |
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FFP
Overview
Fabry-Perot filters and interferometers
have provided the highest known optical wavelength
resolution for 100 years, and are still considered
seminal instruments in many branches of science including
astronomy, atomic physics, chemistry, lasers, metrology,
optics, plasma physics and spectroscopy.
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