Corry Micronics' Gain Horn Antennas operate in the sub-gigahertz to over 100 GHz frequency range. These antennas can be custom manufactured for different applications, including but not limited to aerospace, military, wireless communications, and medical.
Excelitas Technologies recently introduced the C30737CH Series of Silicon Avalanche Photodiodes (Si APDs) in a side-looking LLC package specifically designed for laser meter, range- finding, 3D laser scanning and other cutting-edge detection applications. The C30737CH Series' unique laminated leadless carrier (LLC) package allows for convenient, automated pick-and-place "side-looker" assembly on printed circuit boards (PCBs) making it the ideal APD for high volume applications.
Pulsed laser diodes (PLDs) at 1550 nm are primarily used in next-generation eye-safe military rangefinders and friend-or-foe identification. LASER COMPONENTS has world leading 1550 nm PLD technology with superior performance and outstanding reliability.
Photron, a leading global manufacturer of high speed imaging systems, introduces the ultra-high-speed, high-resolution camera system, the Fastcam IS-1M. The revolutionary 312 x 260 pixel resolution ISIS (in-situ image storage) CCD sensor system is designed to capture a wide range of ultra-high-speed phenomena at up to 1,000,000 frames per second (fps). The key feature of the new camera is the sensor where the signal storage areas for the recorded images are incorporated within the chip. Extremely light sensitive, the Fastcam IS-1M captures a wide range of high speed events, even in low light conditions.
The Sol™ 1.7 is a high performance linear InGaAs array spectrometer, featuring 256, 512 (standard), and 1024 pixels with TE Cooling down to -10°C, all while providing high throughput and large dynamic range.
The Sol™ 2.2 is a high performance linear InGaAs array spectrometer, featuring 512 (standard) and 1024 pixels with TE Cooling down to -15°C, all while providing high throughput and large dynamic range.
The Quest™ X -RS232 is a linear CCD array spectrometer optimized for UV performance using a low straylight optical bench. It features a 2048 element detector, built-in 16-bit digitizer, enhanced RS232 interface with a >500 kHz readout speed and external trigger.
The Cypher™ H is a high performance linear photodiode array (PDA) spectrometer and is optimized for UV performance through the use of an aberration corrected concave holographic grating to minimize stray light.
The Quest™ X is a linear CCD array spectrometer optimized for UV performance using a low straylight optical bench. It features a 2048 element detector, built-in 16-bit digitizer, USB 2.0 interface with a >2.0 MHz readout speed, and external trigger.
The Glacier™ X is a TE Cooled linear CCD array spectrometer. It features a 2048 element detector, built-in 16-bit digitizer, and USB 2.0 interface.
The Quest™ U-RS232 is a linear CCD array spectrometer optimized for UV performance using a low straylight optical bench. It features a 2048 element detector, built-in 16-bit digitizer, enhanced RS232 interface with a >500 kHz readout speed, and external trigger.
The i -trometer™ features a linearly summed 2048 x 64 element back-thinned (BT) CCD detector, and is optimized for UV performance through the use of an aberration corrected concave holographic grating, to minimize stray light.
The Prime™ X features a high sensitivity -10°C TE Cooled linearly summed 512 x 58 element back-thinned (BT) CCD detector. The BT CCD offers superior quantum efficiency, signal-to-noise, and dynamic range, making it ideal for a variety of UV/ Vis/NIR applications.
The Quest™ U is a linear CCD array spectrometer optimized for UV performance using a low straylight optical bench. It features a 2048 element detector, built-in 16-bit digitizer, USB 2.0 interface with a >2.0 MHz readout speed, and external trigger.
Hamamatsu's X10468 series of devices are a reflective type of pure phase Spatial Light Modulators (SLMs), based on Liquid Crystal on Silicon (LCOS) technology in which liquid crystal (LC) is controlled by a direct and accurate voltage, and can modulate a wavefront of light beam. The LCOS-SLMs are carefully designed to achieve high light utilization efficiency from various points of view, such as reflectivity, aperture ratio and diffraction noise due to the pixel structure.
