APD arrays for scintillating fiber readout

An investigation is underway to determine the feasibility of planar processed, high gain, silicon avalanche photodiode arrays as a readout mechanism for scintillating fibers (SCIFI). Avalanche photodiode (APD) arrays are a compact and rugged alternative to photomultiplier tubes (PMTs). Since SCIFI u...

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Hauptverfasser:	Grazioso, R.F., Farrell, R., Cirignano, L., Shah, K.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Avalanche photodiodes Electrons Gamma ray detection Gamma ray detectors Gamma rays Monte Carlo methods Optical fiber devices Production Radiation monitoring Space technology
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creator	Grazioso, R.F. Farrell, R. Cirignano, L. Shah, K.
description	An investigation is underway to determine the feasibility of planar processed, high gain, silicon avalanche photodiode arrays as a readout mechanism for scintillating fibers (SCIFI). Avalanche photodiode (APD) arrays are a compact and rugged alternative to photomultiplier tubes (PMTs). Since SCIFI usually yield a small number of photons compared with bulk scintillators, one goal of this investigation was to determine the photon detection threshold of the APD arrays. A Monte Carlo code was used to simulate a minimum ionizing particle (MIP) interacting with the fiber. The number of photons produced that reach the fiber ends from a MIP was calculated to be between 40-70 photons. The number of photons that reach the fiber ends is dependent on where the MIP interacts along the fiber length, the attenuation length of the fiber, and the fiber length. The next step was to determine the photon detection threshold of an APD array when cooled to -35/spl deg/C. This was accomplished by using a pulsed LED and a /sup 90/Sr beta source. The experimental data show that our APD arrays have a detection efficiency of nearly 100% for photon pulses of >30 photons at a wavelength of 492 nm.
doi_str_mv	10.1109/NSSMIC.1999.845769
format	Conference Proceeding
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Avalanche photodiode (APD) arrays are a compact and rugged alternative to photomultiplier tubes (PMTs). Since SCIFI usually yield a small number of photons compared with bulk scintillators, one goal of this investigation was to determine the photon detection threshold of the APD arrays. A Monte Carlo code was used to simulate a minimum ionizing particle (MIP) interacting with the fiber. The number of photons produced that reach the fiber ends from a MIP was calculated to be between 40-70 photons. The number of photons that reach the fiber ends is dependent on where the MIP interacts along the fiber length, the attenuation length of the fiber, and the fiber length. The next step was to determine the photon detection threshold of an APD array when cooled to -35/spl deg/C. This was accomplished by using a pulsed LED and a /sup 90/Sr beta source. 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The next step was to determine the photon detection threshold of an APD array when cooled to -35/spl deg/C. This was accomplished by using a pulsed LED and a /sup 90/Sr beta source. 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The number of photons produced that reach the fiber ends from a MIP was calculated to be between 40-70 photons. The number of photons that reach the fiber ends is dependent on where the MIP interacts along the fiber length, the attenuation length of the fiber, and the fiber length. The next step was to determine the photon detection threshold of an APD array when cooled to -35/spl deg/C. This was accomplished by using a pulsed LED and a /sup 90/Sr beta source. The experimental data show that our APD arrays have a detection efficiency of nearly 100% for photon pulses of >30 photons at a wavelength of 492 nm.</abstract><pub>IEEE</pub><doi>10.1109/NSSMIC.1999.845769</doi></addata></record>
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subjects	Avalanche photodiodes Electrons Gamma ray detection Gamma ray detectors Gamma rays Monte Carlo methods Optical fiber devices Production Radiation monitoring Space technology
title	APD arrays for scintillating fiber readout
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