Operating characteristics of avalanche photodiodes for PET systems

Gramsch, Ernesto; Gullikson, E. M.; Moses W.W.; Ávila R.

Keywords: fields, silicon, emission, optimization, tomography, efficiency, gamma, quantum, signal, phosphors, noise, diodes, rays, neutron, avalanche, photodiodes, positron, transmutation, Electric, wafers, Photomultipliers, Spurious, doped, (NTD), wafer

Abstract

Results from recently developed avalanche photodiodes of the beveled edge type for use in low-light level applications such as PET systems are presented. Starting from a neutron transmutation doped (NTD) Si wafer, an avalanche photodiode with an active area of 100 mm2 was produced by deep Ga diffusion, followed by boron and phosphor diffusion. The gain and dark current are dependent on external voltage, and gains up to 400 are obtained at 1950 V without much excess noise, breakdown occurs at 1990 V. The detector exhibits low noise and fast response, necessary for use in PET systems. The energy resolution from a 57Co gamma-ray source was measured to be 942 eV at 6.5 keV, which corresponds to 111 r.m.s. noise electrons at the input. We measured the energy resolution of the detector coupled a 3×3×3 mm3 BGO scintillator from a 22Na gamma ray source. The energy resolution at the 511 keV line was 12.5%, which is comparable to photomultiplier tubes coupled to a scintillator of the same size. Calculation of the electric field and width of the depletion region was done to estimate the thickness of the undepleted front region and to optimize the quantum efficiency for detection of BGO light.

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Título de la Revista: 1604-2004: SUPERNOVAE AS COSMOLOGICAL LIGHTHOUSES
Volumen: 2
Editorial: ASTRONOMICAL SOC PACIFIC
Fecha de publicación: 1996
Página de inicio: 768
Página final: 772
URL: http://www.scopus.com/inward/record.url?eid=2-s2.0-0030348545&partnerID=q2rCbXpz