Cameras for fiber-coupled scintillators
iKon HF and Zyla HF from Oxford Instruments AndorFor harder high-energy photons or particles from about 10 keV to 100 keV, cameras with indirect detection methods are preferred. Indirect detection employs scintillators and phosphor screens to convert incident X-ray photons or electrons to visible photons which are then detected by the sensor. We offer CCD and sCMOS cameras which have their individual advantages in noise and frame rate performance.
- Back-illuminated CCD and sCMOS technology with coupled fiber optics window
- 13,5 µm and 6,5 µm pixel size
- Thermo-electrical cooling down to -35 °C for negligible dark current
- High quality 16 bit AD converter for low readout noise
- Beryllium windows and scintillators on request
Further information
Indirect imaging of high energy photons and particles is highly efficient when light from the scintillator goes straight to the sensor. Direct bonding of a fiber optic plate to the CCD or sCMOS sensor facilitates a compact optical geometry with minimum loss of light. Depending on the experimental requirements regarding field of view, frame rate and noise performance we offer either the iKon-L HF CCD camera or the Zyla HF sCMOS camera. Scintillator screens with high throughput or high transmission can be added as an option. A beryllium window can be inserted if visible light has to be blocked. The iKon and Zyla detectors are fully integrated into the EPICS control software that is commonly used in larger facilities with real-time beam monitoring.
Specifications
Applications
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Reference customers
Title | Author(s) | Institute | Year | Detector |
---|---|---|---|---|
Propagation-based phase-contrast X-ray tomography of soft tissue with Zyla-HF sCMOS camera at the synchrotron endstation „GINIX“ | J. Frohn, M. Reichardt, M. Eckermann, T. Salditt | Institute for X-ray Physics, | 2020 | Zyla-5.5X-FO |
Three-dimensional phase sensitive X-ray imaging of fatigue damaged carbon-fiber-reinforced polymers | Hildebrand, M. Leck | Department of Analytical Measurement Technology, Faculty of Natural Sciences and Technology, University of Applied Sciences and Arts Göttingen | 2016 | Zyla-5.5X-FOR |
EMCCD based Single Photon Emission Microscope System for I-125 Imaging in Small Animals | L. J. Meng | Nuclear, Plasma and Radiological Engineering, University of Illinois, Urbana, USA | 2007 | iXon DF897-FB |
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Quantum Design GmbH
ul. Sztygarska 12/3
41-500 Chorzow
Poland
Phone: | +48 32 2482048 |
Mobile: | +48 515 166893 |
E-mail: | polandqd-europe.com |