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Author(s)
| Mac Raighne, Aaron (Glasgow U.) ; Teixeira, Antonio (CERN) ; Mathot, Serge (CERN) ; McPhate, Jason (UC, Berkeley) ; Vallerga, John (UC, Berkeley) ; Jarron, Pierre (CERN) ; Brownlee, Colin (The Marine Biological Association of the United Kingdom, Plymouth, UK) ; O’Shea, Val (Glasgow U.) |
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Abstract
| We present the development of a high-speed, single-photon counting, Hybrid Photo Detector (HPD). The HPD consists of a vacuum tube, containing the detector assembly, sealed with a transparent optical input window. Photons incident on the photocathode eject a photoelectron into a large electric field, which accelerates the incident electron onto a silicon detector. The silicon detector is bump bonded to a Medipix readout chip. This set-up allows for the detection and readout of low incident photon intensities at rates that are otherwise unattainable with current camera technology. Reported is the fabrication of the camera that brings together a range of sophisticated design and fabrication techniques and the expected theoretical imaging performance. Applications to cellular and molecular microscopy are also described in which single-photon-counting abilities at high frame rates are crucial |