000000449 001__ 449
000000449 005__ 20161222110958.0
000000449 037__ $$aBELLE2-PTHESIS-2016-008
000000449 041__ $$aeng
000000449 100__ $$aJakob Lettenbichler
000000449 245__ $$aReal-time Pattern Recognition in the Central Tracking Detector of the Belle II Experiment
000000449 260__ $$aVienna$$bInstitute of High Energy Physics (HEPHY)$$c2016
000000449 300__ $$a219
000000449 500__ $$aPresented on 28 11 2016
000000449 502__ $$aPhD$$bVienna, Vienna Technical University$$c2016
000000449 520__ $$aThe Belle II experiment is currently under construction in the KEK laboratory in Tsukuba, Japan. It will record events produced by the world’s only second-generation B factory, the SuperKEKB collider, an asymmetric e+e− storage ring with 3km circumference. The collider will operate at the collision energy corresponding to the mass of the Υ(4
000000449 6531_ $$2BibClassify$$9HEP$$adetector: pixel$$n3
000000449 6531_ $$2BibClassify$$9HEP$$amagnetic field$$n9
000000449 6531_ $$2BibClassify$$9HEP$$apositron$$n12
000000449 6531_ $$2BibClassify$$9HEP$$aBELLE$$n73
000000449 6531_ $$2BibClassify$$9HEP$$aSVD$$n60
000000449 6531_ $$2BibClassify$$9HEP$$abeam: lifetime$$n2
000000449 6531_ $$2BibClassify$$9HEP$$aKEK-B$$n15
000000449 6531_ $$2BibClassify$$9HEP$$aCP: violation$$n24
000000449 6531_ $$2BibClassify$$9HEP$$acluster$$n56
000000449 6531_ $$2BibClassify$$9HEP$$abeam: current$$n2
000000449 6531_ $$2BibClassify$$9HEP$$amomentum: difference$$n2
000000449 6531_ $$2BibClassify$$9HEP$$atracking detector$$n10
000000449 6531_ $$2BibClassify$$9HEP$$avertex: primary$$n6
000000449 6531_ $$2BibClassify$$9HEP$$abeam: size$$n4
000000449 6531_ $$2BibClassify$$9HEP$$asemiconductor detector$$n7
000000449 6531_ $$2BibClassify$$9HEP$$agap$$n10
000000449 6531_ $$2BibClassify$$9HEP$$aquality$$n25
000000449 6531_ $$2BibClassify$$9HEP$$aB-factory$$n31
000000449 6531_ $$2BibClassify$$9HEP$$aghost$$n13
000000449 6531_ $$2BibClassify$$9HEP$$amatter: geometry$$n12
000000449 6531_ $$2BibClassify$$9HEP$$aparticle: energy$$n3
000000449 6531_ $$2BibClassify$$9HEP$$aneural network$$n12
000000449 6531_ $$2BibClassify$$9HEP$$adimension: 3$$n2
000000449 6531_ $$2BibClassify$$9HEP$$aefficiency$$n162
000000449 6531_ $$2BibClassify$$9HEP$$abackground: dependence$$n5
000000449 6531_ $$2BibClassify$$9HEP$$abeam: asymmetry$$n2
000000449 6531_ $$2BibClassify$$9HEP$$aacceptance$$n15
000000449 6531_ $$2BibClassify$$9HEP$$amultiple scattering: effect$$n2
000000449 6531_ $$2BibClassify$$9HEP$$acharge: color$$n5
000000449 6531_ $$2BibClassify$$9HEP$$aoverlap$$n15
000000449 6531_ $$2BibClassify$$9HEP$$aparticle: interaction$$n4
000000449 6531_ $$2BibClassify$$9HEP$$abeam: energy$$n4
000000449 6531_ $$2BibClassify$$9HEP$$aradiation: length$$n3
000000449 6531_ $$2BibClassify$$9HEP$$aB: decay$$n2
000000449 6531_ $$2BibClassify$$9HEP$$aperformance$$n34
000000449 6531_ $$2BibClassify$$9HEP$$acircle$$n20
000000449 6531_ $$2BibClassify$$9HEP$$aenergy loss$$n18
000000449 6531_ $$2BibClassify$$9HEP$$aconformal$$n9
000000449 6531_ $$2BibClassify$$9HEP$$aphoton: emission$$n3
000000449 6531_ $$2BibClassify$$9HEP$$adetector: design$$n2
000000449 700__ $$aRudolf Frühwirth$$edir.
000000449 8560_ $$fchristoph.schwanda@desy.de
000000449 8564_ $$uhttps://docs.belle2.org/record/449/files/BELLE2-PTHESIS-2016-008.pdf
000000449 980__ $$aTHESIS