Showing results: 76 - 90 of 129 items found.
-
NIRvana® 640 -
Teledyne Princeton Instruments
The NIRvana® 640 offers incredible sensitivity with greater than >85% Quantum Efficiency between 950 nm and 1500 nm, ensuring you collect every photon you can.The biggest barrier to low light SWIR imaging is dark current. The NIRvana® 640 offers incredible low dark current – only 40e-/p/s, enabling longer exposures for faint samples.
-
M Squared Lasers
We design and manufacture advanced photonics tools for use in science, industry and education. Our lasers have enabled breakthroughs in quantum technology, biophotonics and chemical sensing and have been used by sectors as diverse as aerospace, defence, oil and gas, healthcare, food and drink. Known for their reliability and ease-of-use, our products such as SolsTiS, Sprite and Firefly are the tools of choice for researchers and innovators everywhere.
-
Teledyne e2v
Our backside illuminated (BSI) and backthinned Charge Coupled Devices (CCDs) and front and back illuminated CMOS image sensors (CIS) are seen as the gold standard for scientific and quantum imaging in applications in spectroscopy, microscopy, in vivo, x-ray and astronomy. We understand that every imaging application is unique and requires our engineers and scientists to work closely with our customers providing highly tailored imaging solutions.
-
Alnair Laboratories Corporation
A specially designed Erbium-doped fiber amplifier which offers a superior optical amplication performance with a very high gain factor and a minimal added noise. A near quantum limited noise figure of typically 3.8dB, and a small-signal optical gain of over 50dB is achievable with input signal as low as -50 dBm reflecting the impact of the specialty fiber and composite amplifier design, making it an indispensable amplifier for weak optical signals.
-
Ruby Family -
Teledyne e2v
The EV76C660 and EV76C661 are members of Teledyne e2v’s Ruby family of CMOS imaging sensors. These breakthrough devices provide sensitivity and performance beyond that considered possible on a front side illuminated sensor with a pixel size of 5.3µm, Quantum Efficiency (QE) of over 80% and excellent sensitivity and performance in the near-infrared (NIR) spectrum (>50% at 850nm). This significantly reduces system illumination costs, or enables very low-light imaging in outdoor camera applications.
-
Campbell Scientific, Inc.
The solar radiation sensors that Campbell Scientific offers come in a variety of designs: pyranometers, net radiometers, quantum sensors, and pyrheliometers. These sensors measure various aspects of the energy imparted by the sun on the Earth’s surface. A leveling fixture fitted with a bubble level may be required to accurately install solar radiation sensors.
-
PEM-1000 -
Korima, Inc.
The PEM-1000 emission microscope incorporates the latest technology in real time, high quantum efficiency, mega-pixel CCD detectors in a back-thinned cooled camera. A portable system, the PEM 1000 can interface with all analytical probe stations, ATE (automated test equipment) and bench top configurations for high speed functional testing.
-
RX - 32 -
Resonance Technology
The device is designed to work as a research or service instrument characterized by a very high precision of magnetic field measurement. Thanks to the operation based on the principle of nuclear magnetic resonance ( Nuclear Magnetic Resonance - NMR ), it is a quantum device whose indications do not depend on external factors such as temperature, pressure, aging effects, etc.
-
SHF Communication Technologies AG
SHF has been active in the design and production of broadband RF-microwave amplifier. The outstanding performance makes our amplifiers suitable for a wide variety of applications in R&D. This includes not only optical communications, but also satellite communications, high-speed pulse experiments, data transmission, quantum communication, radar and antenna measurements.
-
SPD_A_NIR -
AUREA Technology
The SPD_A_NIR from AUREA Technology is the "best-in-class" high-performance and easy-to-use Near Infrared single photon counting modules engineered for the most demanding low-level of-light applications, such as single photon counting, Time Correlated Single Photon Counting (TCSPC), spectroscopy, eye safe LIDAR, optical communications, and quantum cryptography.
-
ace L Series -
Basler Vision Components AG
Twelve ace L models offer resolutions of 9 and 12 megapixels and frame rates of up to 40 fps. Featuring the high-performance IMX253, IMX255, IMX267 and IMX304 sensors, they stand out for the famously brilliant Pregius image quality with a dynamic range of more than 70 dB and a high quantum efficiency over a broad spectrum of visible light into the NIR. Available with the proven GigE or USB 3.0 interface, and conform to GigE Vision 2.0 or the USB3 Vision standard.
-
Lumetta -
HORIBA, Ltd.
HORIBA Scientific’s new Lumetta™ delivers benchtop performance in a small, value priced package to the rapid compact spectrometer market. It offers the highest throughput/signal gathering capacity in its class, employing a tall sensor and an F/2 design. With a scientific grade-one high quantum efficiency CCD cooled to -50 oC, it provides a sensitivity that rivals more expensive high-end benchtop systems. As an imaging spectrograph, it enables advanced techniques such as multitrack spectroscopy and hyperspectral imaging ― all at an affordable price.
-
Ice Bloc LB-4 -
M Squared Lasers
The Ice Bloc LB-4 is a digital lock controller designed for stabilisation of laser systems, containing four PID loops with optional demodulation at loop bandwidths up to 3 MHz. The highly-configurable FPGA-based control algorithm provides flexibility for use with a wide array of applications such as quantum experiments, laser linewidth narrowing, frequency stabilisation, and many more.
-
DS-Fi3 -
Nikon Metrology, Inc.
The DS-Fi3 is equipped with a 5.9 megapixel CMOS image sensor, which enables the capture of high-definition images of up to 2880 x 2048 pixels. With a new CMOS image sensor and high-speed data transfer via USB3.0, the DS-Fi3 enables fast focusing even in high-resolution imaging, and efficient image acquisition when using a wide range of illumination techniques. The DS-Fi3 has significantly higher quantum efficiency and lower readout noise than conventional models. It allows the capture of brighter images with higher S/N ratios in fluorescence observation.
-
SolsTiS-Phase Locked -
M Squared Lasers
The phase locked SolsTiS system is primarily designed for use in atom interferometry and quantum computing where Raman transitions are commonly used, although we can tailor the setup to other applications. The system provides extremely low phase noise and high output powers. Full control over the system is provided through our easy to use Ice Bloc user interface.