Products & ServicesSee also: Categories | Featured Products | Technical Articles | More Information
Supplier: Newport Corporation
Description: No Description Provided
- Cable Type: Single Mode
- Pigtailed: Yes
- Insertion Loss: 0.3000 dB
- Return Loss: 55 dB
Supplier: ValueTronics International, Inc.
Description: of optical launch conditions for PMD measurements The Keysight Agilent HP 8169A is a reconditioned Polarization Controller. The wave plates are individually adjusted to create all possible states of polarization deterministically. The polarizer generates a linear state of polarization with a high extinction
- Form Factor: Hand Held
Description: needed to mate with fiber optic illuminators.
- Angle: Flexible
- Wavelength Range: 400 to 2000 nm
- Acceptance Angle: 68 degrees
- Numerical Aperture: 0.5500
Fiber Optic Depolarizers - Fiber Optic Depolarizer, 1550 nm, 10 m Coherence Length, FC/PC Connectors -- F-DEP-2-FPSupplier: Newport Corporation
Description: The F-DEP-2-FP Fiber Optic Depolarizer is capable of depolarizing lasers with coherence lengths of up to 10 meters in a surprisingly small 85 x 60 x 10 mm package. This device dramatically reduces the effects of polarization dependent loss (PDL) in polarization sensitive optical components
Description: D). Each lens also has a standard front filter thread for use with Edmund color filters, polarizers, protective windows, and illumination adapters for LED or fiber-optic ring guides. Unique twin-ring mounting clamps are available separately.Mounting clamps have the same twin-ring clamp design
- Magnification: 2 X
- Working Distance: 2.95 inch
- Distortion: 0.3000 %
Description: anti-reflection (AR) coating helps minimize surface reflection losses and return loss in fiber optic systems. 1310nm and 1550nm True Zero Order Waveplates (Retarders) are ideal for a range of telecommunications applications.
- Polarizer Type: Waveplate / Retardation Plate
- Wavelength Range: 1310 nm
- Surface Quality: 20-10 Scratch / Dig
Supplier: Multiwave Photonics
Description: The PM Ytterbium-Doped Fiber Amplifier is a high small-signal gain polarization maintaining single polarization (PMSP) amplifier for the wavelength band 1055 nm - 1075 nm, provided as a compact OEM module. The optical amplifier is based on a dual stage configuration and performance is optimized
- Amplifier Type: Other
- Amplifier Model: Benchtop
- Amplifier Wavelength: Other
- Connector: FC, Other
Description: for applications in coherent communications, sensing, all-optical frequency-shifting, and data encryption. The Phase Modulator is based on Titanium-indiffused z-cut Lithium Niobate. For ease of system integration it is offered with internal termination and optional polarization-maintaining output fiber
- Modulator Type: Analog, Digital
- Modulation: Phase
- Connector Type: FC, LC, SC, SMA, Other
- Wavelength Range: 1525 to 1605 nm
Find Suppliers by Category Top
Featured Products Top
Optical phase shifter (variable shutter)
and 1000nm. It provides an extremely high throughput ideal and does not need fiber optics. Ideal for diffuse reflection measurement or low light applications. SpectroSolar - The SpectroSolar is high quality robust USB powered grating spectrometer optimized for measuring the spectral contents of pulsed (down to 1ms) and continuous solar simulators. USB IR Lamp - The Arcoptix USB lamp is a compact USB-powered lamp. The USB lamp features a SMA 905 connector for easy coupling in optical fibers. The lamp... (read more)
Browse Optical Polarizers Datasheets for Arcoptix S.A
Conduct Research Top
Off-The-Shelf Component Prototyping
possible to prototype with a wider variety of lenses, filters, polarizers, mirrors, beamsplitters, iris diaphragms, objectives and fiber optic illumination. Using the many C-/T-Mount components in this line, these products can be securely positioned and precisely aligned. Mounting to most cameras
Medical Device Link .
including bright sunlight. Lumitex's fiber-optic backlighting panels provide the brightness of electroluminescence as well as long life. The company's cholesteric LCD products feature high-resolution images of blue, green, or yellow pixels. "This technology is realized without the use of polarizers
More Information Top
Polarization of Light with Applications in Optical Fibers
220.127.116.11 In-line fiber optic polarizer ...........................194 9.4 Surface Plasmon Polaritons and Devices ....................................195 References .............................................................................................196 .
Crystal?clad fiberoptic polarizer
Lefevre, and H. J. Shaw, �Single-Mode Fiber Optic Polarizer .� .
C. Chang, " Fiber optic polarizer ," U.S. Patent No. 4,795,233 (1989).
In?line fiber?optical polarizer with high?extinction ratios and low?insertion loss
D. Gruchmann, K. Petermann, L. Staudigel, and E. Weidel, Fiber optic polarizers with high extinction ratio, In: 9th European Conference on Optical Communication (ECOC), 1983.
Overview Of Advanced Components For Fiber Optic Systems
CUT -OFF SINGLE MODE FIBER OPTIC POLARIZER .
Developments in the characterization and performance of optical fiber polarizing devices using thin metal films
In line fibre optic polarisers and polarising beam splitters utilising surface plasmon polaritons in thin metal films have been developed and reported by many authors.
Novel Polarization Selective Optical Fibre Devices Utilising Thin Metal Film Plasmon Resonances
and used to define theoretically the design criteria for in line fibre optic polarizers based on the polarization selective evanescent coupling between an optical fibre and the plasmon modes of a thin aluminium film.
Fiber Optic Sensor Overview
"Novel In -Line Single Mode Fiber Optic Polarizer ," .
OSA | Self-aligning polarization strategy for making side polished polarization maintaining
D. Gruchmann, K. Petermann, L. Staudigel, & E. Weidel, � Fiber optic polarizers with high extinction ratio,� 9th European conference on optical communication 1983, (ECOC).
 R. A. Bergh, H. C. Lefevre, and H. J. Shaw, "Single mode fiber optic polarizers ," Opt. Lett., vol.