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Page 3 - Imaging & Spectroscopy

Built for maximum sensitivity: With industry-leading low-light S⁣N⁣R.⁣ Made for applications requiring the ultimate sensitivity in Space & Defense, Life Sciences, Physics, Industry and many other fields, the HNü 512 camera provides exactly what is to be expected from a high-end E⁣M⁣C⁣C⁣D⁣ camera: virtually no noise. This ...

Specifications

Sensor Type: EMCCD
# Pixels (Width): 512
# Pixels (Height): 512
Pixel Size (Square): 16 um
Peak Quantum Efficiency: 95 %
The PicoStar UF is an ICCD/CMOS camera consisting of a state-of-the-art picosecond time-gated image intensifier  coupled to the CCD/CMOS camera via a high optical efficiency relay optics. In the ultra-fast time-gated mode, the image intensifier has a minimum gate width <65ps @ trigger rate <10kHz

Specifications

Sensor Type: iCCD
# Pixels (Width): 1920
# Pixels (Height): 1200
Pixel Size (Square): 5.86 um
Peak Quantum Efficiency: 70 %
The PicoStar is an ICCD camera consisting of a state-of-the-art. picosecond time-gated image intensifier  coupled to the CCD/CMOS camera via a high optical efficiency relay optics. In the fast time-gated mode, the image intensifier has a minimum gate width <100ps @ trigger rate <10kHz

Specifications

Sensor Type: iCCD
# Pixels (Width): 1920
# Pixels (Height): 1200
Pixel Size (Square): 5.86 um
Peak Quantum Efficiency: 70 %
The PicoStar HR ICCD camera is based on a state-of-the-art picosecond time-gated, ultra-high trigger rate image intensifier coupled to the  CCD/CMOS camera via high optical efficiency relay optics. The camera offers an ultra-high, trigger rate time-gated mode with minimum width <300ps @ trigger rate <110MHz and an ...

Specifications

Sensor Type: iCCD
# Pixels (Width): 1920
# Pixels (Height): 1200
Pixel Size (Square): 5.86 um
Peak Quantum Efficiency: 70 %
Introducing the Marana sCMOS – the pinnacle of sensitivity and performance in back-illuminated sCMOS technology, specifically crafted for the demanding fields of astronomy and physical sciences. This state-of-the-art camera platform by Andor is engineered to provide unparalleled performance and adaptability, making it a standout ...

Specifications

Sensor Type: sCMOS
# Pixels (Width): 2048
# Pixels (Height): 2048
Pixel Size (Square): 11 um
Peak Quantum Efficiency: 95 %
The Balor sCMOS platform revolutionizes the field of astronomy by addressing the critical need for high resolution, expansive field of view, and exceptional sensitivity combined with unparalleled speed. Traditional large area CCD technology often falls short in this regard, typically requiring over 40 seconds to readout a single ...

Specifications

Sensor Type: sCMOS
# Pixels (Width): 4128
# Pixels (Height): 4104
Pixel Size (Square): 12 um
Peak Quantum Efficiency: 61 %
The ZL41 Wave series by Andor represents a pinnacle in camera technology for the physical sciences. This sCMOS camera platform is crafted to deliver unmatched performance in speed, sensitivity, dynamic range, and resolution. Designed with comprehensive imaging and spectroscopy capabilities, the ZL41 Wave stands out as a highly ...

Specifications

Sensor Type: sCMOS
# Pixels (Width): 1475
# Pixels (Height): 2160
Pixel Size (Square): 6.5 um
Peak Quantum Efficiency: 50 %
The iKon-L HF is a cutting-edge imaging solution designed for high energy detection, offering unparalleled performance in scientific imaging applications. This advanced camera system integrates a high quantum efficiency (QE) sensor, boasting a peak QE of 95%, to ensure exceptional sensitivity and resolution. The camera features a ...

Specifications

Sensor Type: CCD
# Pixels (Width): 2048
# Pixels (Height): 2048
Pixel Size (Square): 13.5 um
Peak Quantum Efficiency: 96 %
TIME-RESOLVED PIXEL-PARALLEL LOCK-IN DETECTION Upscale your lock-in experiment with 277 504 parallel dual-phase demodulatorsPump-probe, spectroscopy, phase contrast,doppler shift, holography, interferometry, etc

Specifications

Sensor Type: CMOS
# Pixels (Width): 542
# Pixels (Height): 512
Pixel Size (Square): 24 um
Peak Quantum Efficiency: 79 %
The Prime 95B 22mm™ Scientific CMOS Camera represents a significant leap forward in scientific imaging technology, offering unparalleled sensitivity and precision. At the core of this innovation is its high Quantum Efficiency (QE) Backside Illumination (BSI) sensor, a groundbreaking first for Scientific CMOS cameras. This sensor is ...

Specifications

Sensor Type: sCMOS
# Pixels (Width): 1200
# Pixels (Height): 1200
Pixel Size (Square): 11 um
Peak Quantum Efficiency: 95 %
The camera uses state of the art BAE Fairchild sCMOS 4123 sensors with 0.5 electron readout noise, very low dark current and low defective pixel count. Available as monochrome or color. Thanks to the proprietary back illumination process and thermo-electric cooling, the new Hawkeye 4123 camera allows ...

Specifications

Sensor Type: sCMOS
# Pixels (Width): 4096
# Pixels (Height): 2300
Pixel Size (Square): 4.6 um
Peak Quantum Efficiency: 85 %
e-CAM30_CUNANO is a 3.4 MP 2 lane MIPI CSI-2 custom lens camera board for NVIDIA® Jetson Nano™ developer Kit. This camera is based on 1/3\" AR0330 CMOS Image sensor from onsemi® with 2.2 µm pixel. This camera can be directly connected to camera connector (J13) on the NVIDIA® Jetson Nano™ developer Kit. ...

Specifications

Sensor Type: CMOS
# Pixels (Width): 2304
# Pixels (Height): 1536
Pixel Size (Square): 2.2 um
Peak Quantum Efficiency: 70 %
HORIBA Scientific’s Synapse Extended InGaAs arrays are the ideal choice for demanding, low-light-level measurements in the near infrared (NIR) spectral region from 1000–2200 nm. Available in 512 × 1 (25 × 250 µm), 512 × 1 (50 × 250 µm), and 1024 × 1 (25 × 250 µm) pixel formats, these InGaAs detectors provide high resolution while ...

Specifications

Sensor Type: InGaAs Array
# Pixels (Width): 25
# Pixels (Height): 250
Pixel Size (Square): 512 um
Peak Quantum Efficiency: 89 %
HORIBA Scientific’s Synapse InGaAs arrays are the ideal choice for demanding, low-light-level measurements in the near infrared (NIR) spectral region from 800–1700 nm. Available in 512 × 1 (25 × 500 µm), 512 × 1 (50 × 500 µm), and 1024 × 1 (25 × 500 µm) pixel formats, these InGaAs detectors provide high resolution while maintaining ...

Specifications

Sensor Type: InGaAs Array
# Pixels (Width): 25
# Pixels (Height): 500
Pixel Size (Square): 512 um
Peak Quantum Efficiency: 85 %
1600 × 200 or 1600 × 400 EMCCD sensor  16 × 16 μm pixel size for high spectral resolution  25.6 × 3.2 mm or 25.6 × 6.4 mm image area  Ideal for high-speed or multi-track spectroscopy  Back- and front-illuminated  BIQX Technology with enhanced QE below 450 ...

Specifications

Sensor Type: EMCCD
# Pixels (Width): 1600
# Pixels (Height): 200
Pixel Size (Square): 16 um
Peak Quantum Efficiency: 98 %
2048 . 70 back-illuminated sensor  UV-Vis quantum efficiency enhancement  Deep thermoelectric cooling  Improved etaloning   16-bit digitization  Lifetime vacuum warranty   

Specifications

Sensor Type: CCD
# Pixels (Width): 2048
# Pixels (Height): 70
Pixel Size (Square): 14 um
Peak Quantum Efficiency: 78 %
The Synapse-i scientific CCD camera is the most sensitive quantitative low light imaging camera on the market. The Synapse-i imaging camera provides real image quantification for direct correlation between the image intensity and the detected number of photons. Thanks to its unique quick-change mounting flange, ...

Specifications

Sensor Type: CCD
# Pixels (Width): 1024
# Pixels (Height): 1024
Pixel Size (Square): 13 um
Peak Quantum Efficiency: Not Specified
1600 × 200 or 1600 × 400 EMCCD sensor  16 × 16 μm pixel size for high spectral resolution  25.6 × 3.2 mm or 25.6 × 6.4 mm image area  Ideal for high-speed or multi-track spectroscopy  Back- and front-illuminated  BIQX Technology with enhanced QE below 450 ...

Specifications

Sensor Type: EMCCD
# Pixels (Width): 1600
# Pixels (Height): 400
Pixel Size (Square): 16 um
Peak Quantum Efficiency: 98 %
· 1024 x 256 Front Illuminated Open Electrode sensor · Deep Thermoelectric cooling · UV transmission with Fused Silica window · 16 bit Digitization · > 58% Quantum Efficiency · > Lifetime Vacuum Warranty

Specifications

Sensor Type: CCD
# Pixels (Width): 1024
# Pixels (Height): 256
Pixel Size (Square): 26 um
Peak Quantum Efficiency: 58 %
Open Electrode technology allows an increased response in the UV over standard front-illuminated CCDs. in the near IR, this detector is a lower-cost alternative to the deep-depletion CCDs with no etaloning beacause of its front-illuminated design and similar signal-to-noise performance.

Specifications

Sensor Type: CCD
# Pixels (Width): 1024
# Pixels (Height): 256
Pixel Size (Square): 26 um
Peak Quantum Efficiency: 58 %