001399811 001__ 1399811
001399811 005__ 20160701115217.0
001399811 0247_ $$2DOI$$a10.1016/j.nima.2010.04.115
001399811 0248_ $$aoai:cds.cern.ch:1399811$$pcerncds:CERN
001399811 041__ $$aeng
001399811 100__ $$aChesi, E$$uOhio State U.
001399811 245__ $$aConstruction and tests of demonstrator modules for a 3-D axial PET system for brain or small animal imaging
001399811 260__ $$c2011
001399811 500__ $$a7th International Symposium on the Development and Application of Semiconductor Tracking Detectors, Int Conf Ctr, Hiroshima, JAPAN, AUG 29-SEP 01, 2009
001399811 520__ $$aThe design and construction of a PET camera module with high sensitivity, full 3-D spatial reconstruction and very good energy resolution is presented. The basic principle consists of an axial arrangement of long scintillation crystals around the Field Of View (FOV), providing a measurement of the transverse coordinates of the interacting 511 keV gamma ray. On top of each layer of crystals, an array of Wave-Length Shifter (WLS) strips, which collect the light leaving the crystals sideways, is positioned orthogonal to the crystal direction. The signals in the WLS strips allow a precise measurement of the z (axial) co-ordinate of the 511 keV gamma-ray gamma impact. The construction of two modules used for demonstration of the concept is described. First preliminary results on spatial and energy resolution from one full module will be shown. (C) 2010 Elsevier B.V. All rights reserved.
001399811 595__ $$aWEBOFSCIENCE-NEW-201111
001399811 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
001399811 65017 $$2SzGeCERN$$aNuclear Physics - XX
001399811 65017 $$2SzGeCERN$$9Physics$$aXX
001399811 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
001399811 690C_ $$aCERN
001399811 690C_ $$aARTICLE
001399811 700__ $$aNappi, E$$uINFN, Bari
001399811 700__ $$aClinthorne, N$$uMichigan U.
001399811 700__ $$aPauss, P$$uZurich, ETH
001399811 700__ $$0AUTHOR|(CDS)2073630$$9#BEARD#$$aMeddi, F$$uRome U.
001399811 700__ $$aBeltrame, P$$uCERN
001399811 700__ $$aKagan, H$$uOhio State U.
001399811 700__ $$aBraem, A$$uCERN
001399811 700__ $$aCasella, C$$uZurich, ETH
001399811 700__ $$aDjambazov, G$$uZurich, ETH
001399811 700__ $$aSmith, S$$uOhio State U.
001399811 700__ $$aJohnson, I$$uPSI, Villigen
001399811 700__ $$aLustermann, W$$uZurich, ETH
001399811 700__ $$aWeilhammer, P$$uOhio State U.
001399811 700__ $$aNessi-Tedaldi, F$$uZurich, ETH
001399811 700__ $$aDissertori, G$$uZurich, ETH
001399811 700__ $$aRenker, D$$uPSI, Villigen
001399811 700__ $$0AUTHOR|(CDS)2071113$$9#BEARD#$$aSchneider, T$$uCERN
001399811 700__ $$aSchinzel, D$$uZurich, ETH
001399811 700__ $$aHonscheid, K$$uOhio State U.
001399811 700__ $$aDe Leo, R$$uINFN, Bari
001399811 700__ $$aBolle, E$$uOslo U.
001399811 700__ $$aFanti, V$$uCERN
001399811 700__ $$aRafecas, M$$uValencia U., IFIC
001399811 700__ $$aCochran, E$$uOhio State U.
001399811 700__ $$aRudge, A$$uOhio State U.
001399811 700__ $$aStapnes, S$$uOslo U.
001399811 700__ $$aHuh, S$$uMichigan U.
001399811 700__ $$aSeguinot, J$$uCERN
001399811 700__ $$aSolevi, P$$uZurich, ETH
001399811 700__ $$aJoram, C$$uCERN
001399811 700__ $$aOliver, J F$$uValencia U., IFIC
001399811 773__ $$cS226-S230$$n1$$pNucl. Instrum. Methods Phys. Res., A$$v636$$y2011
001399811 916__ $$sn$$w201146$$ya2011
001399811 962__ $$b1166342$$kS226-S230$$nhiroshima20090829
001399811 960__ $$a13
001399811 980__ $$aARTICLE
001399811 980__ $$aConferencePaper