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 1807-FC Silicon Balanced Fiber-Optic Receiver is ideal for coherent heterodyne-detection applications including Doppler LIDAR, and optical coherence tomography. This FC connectorized, 320 to 1000 nm, DC to 80-MHz balanced receiver can make the difference when you need to see a small signal. Just..
The 1817-FC InGaAs Balanced Fiber-Optic Receiver is ideal for coherent heterodyne-detection applications including Doppler LIDAR, and optical coherence tomography. This FC connectorized, 900 to 1700 nm, DC to 80-MHz balanced receiver can make the difference when you need to see a small signal. Just ..
The 1617-AC-FC InGaAs 800 MHz Balanced Fiber-Optic Receiver is ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry. This FC connectorized 900 to 1700 nm balanced photoreceiver can make all the difference when you're trying to see a small signal. They can even eliminate the need for l..
The 1607-AC-FC Silicon 650 MHz Balanced Fiber-Optic Receiver is ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry. This FC connectorized 320 to 1000 nm balanced photoreceiver can make all the difference when you're trying to see a small signal. They can even eliminate the need for ..
The 1807-FS Silicon Balanced Optical Receiver is ideal for coherent heterodyne-detection applications including Doppler LIDAR, and optical coherence tomography. This free space, 320 to 1000 nm, DC to 80 MHz balanced receiver can make the difference when you need to see a small signal. Just like our ..
The 1817-FS InGaAs Balanced Optical Receiver is ideal for coherent heterodyne-detection applications including Doppler LIDAR, and optical coherence tomography. This free space, 900 to 1700 nm, DC to 80-MHz balanced receiver can make the difference when you need to see a small signal. Just like our M..
The 1617-AC-FS InGaAs 800 MHz Balanced Optical Receiver is ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry. This free space 900 to 1700 nm balanced photoreceiver can make all the difference when you're trying to see a small signal. They can even eliminate the need for lock-in amp..
The 1607-AC-FS Silicon 650 MHz Balanced Optical Receiver is ideal for FM spectroscopy, absorption spectroscopy, or ellipsometry. This free space 320 to 1000 nm balanced photoreceiver can make all the difference when you're trying to see a small signal. They can even eliminate the need for lock-in am..