The 2117-FC Adjustable Gain and Bandwidth Balanced Fiber-Optic Receiver is an FC connectorized, 900 to 1700 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this InGaAs ad..
The 2117-FC-M Adjustable Gain and Bandwidth Balanced Fiber-Optic Receiver is an FC connectorized, 900 to 1700 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this InGaAs ..
The 2117-FS Adjustable Gain and Bandwidth Balanced Optical Receiver is a free space, 900 to 1700 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this InGaAs adjustable ba..
The 2117-FS-M Adjustable Gain and Bandwidth Balanced Optical Receiver is a free space, 900 to 1700 nm photoreceiver with higher-gain and lower-bandwidth than our popular Model 20X1 laboratory photoreceivers. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, this InGaAs adjustable ..
The 2317 Large Area Adjustable Gain Balanced Photoreceiver takes the headache out of aligning and re-aligning your 800-1700 nm beams onto the photodetector. Ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry, these balanced photoreceivers can make all the difference when you're tryi..
The 2153 Femtowatt InGaAs Photoreceiver is ideal when you need the ultimate in low-light-level detection in the 800 to 1700 nm range. When used with a chopper and a lock-in amplifier, these receivers can easily achieve sensitivity levels in the femtowatt range. These receivers provide amazing amount..
Easily locate and analyze fiber optic light beams in the 800-1700 nm wavelength range with this pocket sized, low-cost alternative to an IR viewer. This IR viewing card contains a phosphor-coated sensor area that emits clearly visible light when illuminated by NIR and IR sources. This allows for the..
Easily locate and analyze light beams in the 800-1700 nm wavelength range with this pocket sized, low-cost alternative to an IR viewer. This IR viewing card contains a phosphor-coated sensor area that emits clearly visible light when illuminated by NIR and IR sources. This allows for the easy locati..
Easily locate and analyze light beams in the 800-1700 nm wavelength range with this pocket sized, low-cost alternative to an IR viewer. This IR viewing card contains a phosphor-coated sensor area that emits clearly visible light when illuminated by NIR and IR sources. This allows for the easy locati..
The 1623 InGaAs Nanosecond Optical Detector is similar to 800-1700 nm photodetectors with moderate gain and large bandwidth that many of us have built from scratch over and over again. It is ideal for use as a general purpose detector with Q-switched or CW lasers, and it's large diameter and DC resp..
The 2017 Nirvana Auto-Balanced Optical Receiver can cut the effects of laser noise by 50 dB, making even very small signals easy to see. The 2017 has a 800-1700 nm wavelength range. In spectroscopy, ellipsometry, or heterodyne-detection experiments, these receivers can yield shot-noise-limited perfo..
The CONEX-PSD10GE Position Sensing Detector provides accurate XY position information of laser beams and is ideally suited for laser beam stabilization, laser tracking and general beam diagnostics. Unlike quadrant detectors, the improved tetra-lateral effect diode of the CONEX-PSD10GE is highly line..