| Fiber Fabry-Perot
Tunable Filter
Specifications for Scientific Applications
- Center Wavelength:
- Bandwidth:
- Finesse:
- Free Spectral
Range:
- Loss:
- Other options:
- polarization maintaining filter
- specialty fiber
- PZT mechanical tuning
- TEC thermal tuning
Standard Fiber Fabry-Perot
Filters
Chameleon Thin Film
Tunable Filter
Specifications for Scientific Applications
- Center Wavelength:
- Bandwidth:
- Loss:
- Other possible
options:
- polarization maintaining fibers
- manual tuning
- high-speed mechanical tuning
Fiber Fabry-Perot Scanning Interferometer
[FFP-SI]
Fiber Fabry Perot Interferometer [FFPI]
FFP components have been fabricated for
a wide range of applications in various spectral regions,
from 400nm violet to 1.6 µm IR. FFP-TFs have a micron-size
air-gap for wavelength tuning, and generally have bandwidth
>1GHz. FFP-SIs have cavity lengths >20µm, and
are tuned by stretching the fiber cavity.
FFP components are usually made with single-mode fibers
but have also been made with different specialty fibers:
· multi-mode
fibers (MMF),
· polarization-maintaining
fibers (PMF),
· low-polarization
sensitivity fibers,
· dispersion-shifted
fibers,
· D-shaped
fibers,
· highly
nonlinear fibers,
· electro-strictive
fibers,
· fluoride
fibers (e.g., ZBLAN).
In the blue and violet region, FFP-TFs have been used in
a high-resolution inductively coupled plasma atomic emission
spectroscopy (ICP-AES) system designed for compact and field-deployable
nuclear contamination measurements. In the 600nm wavelength
region, both single-mode FFP-TFs and multi-mode FFP-TFs
have been used for proprietary atmospheric monitoring. In
the same wavelength region, FFP-SIs have also been used
to monitor tunable lasers for uranium enrichment plants.
FFP-TFs and FFP-SIs in the 800 and 900nm regions have been
used in laser characterizations and atmospheric Doppler
laser radar (Doppler Lidar) measurements. Similarly, devices
in the 1.06µm wavelength ranges have also been useful
for various applications including analytical chemistry
and spectroscopy. Scientific activities using PM-FFP components
included tunable lasers, polarization encoded fiber Bragg
grating sensing, as well as fiber-optic spectral polarimeter
for bio-medical applications
FFP-Is made with different specialty fibers have been investigated
for various sensing applications and research activities,
including magnetic and electric field sensors, tunable sources
for atmospheric sensing, fiber phase modulators, etc. FFP-SIs
have proven to be extremely useful in high-resolution laser
mode analyses. As they are all-fiber devices, no cumbersome
trial-and-error cavity alignments are needed.
As more and more active gain media become available, such
as rear-earth doped-fibers and semiconductor active media,
FFP components are gaining interests in enabling wavelength
tunability and referencing.
Chameleon Thin Film
Tunable Filter [CTF]
Based on multi-layer thin-film design and angular tuning,
the Chameleon thin-film filters can be incorporated to form
tunable sources and tunable detectors for spectrally resolved
applications. Intrinsically a free-space optic platform,
CTFs can also be employed for free space applications.
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