000003004 001__ 3004
000003004 005__ 20220520095321.0
000003004 037__ $$aBELLE2-POSTER-CONF-2022-001
000003004 041__ $$aeng
000003004 100__ $$aChristian Irmler
000003004 245__ $$aThe Silicon Vertex Detector of the Belle II Experiment
000003004 260__ $$a15th Pisa Meeting on Advanced Detectors$$c2022-05-16
000003004 300__ $$amult. p
000003004 520__ $$aThe Belle II experiment is taking data at the asymmetric Super-KEKB collider, which operates at the Y(4S) resonance. The vertex detector is composed of an inner two-layer pixel detector (PXD) and the silicon vertex detector (SVD), made of four layers of  double-sided silicon strip detectors. The SVD standalone tracking allows the reconstruction and identification, through dE/dx, of low transverse momentum tracks. Moreover, the SVD information is crucial to extrapolate the tracks to the PXD layers, for efficient online PXD data reduction. A deep knowledge of the system has been gained since the start of operations in 2019 by assessing the high-quality and stable reconstruction performance of the detector. Very high hit efficiency, and large signal-to-noise ratio are monitored via online data-quality plots. The good cluster-position resolution is estimated using the unbiased residual with respect to the track, and it is in reasonable agreement with the expectations.  Currently the SVD average occupancy, in its most exposed area, is still <0.5%, which is well below the estimated limit for acceptable tracking performance. With higher machine backgrounds, expected as the luminosity increases, the excellent hit-time information will be exploited for background rejection, improving the tracking performance. The front-end chip (APV25) is operated in “multi-peak” mode, which reads six samples. To reduce background occupancy, trigger dead-time and data size, a 3/6-mixed acquisition mode based on the timing precision of the trigger has been successfully tested in physics runs. Finally, the SVD dose is estimated by the correlation of the SVD occupancy with the dose measured by the diamond sensors of the radiation-monitoring and beam-abort system. First radiation damage effects are measured on the sensor current and strip noise, although they are not affecting the performance. 
000003004 700__ $$aon behalf of the Belle II SVD collaboration
000003004 8560_ $$fchristian.irmler@oeaw.ac.at
000003004 8564_ $$uhttps://docs.belle2.org/record/3004/files/poster_irmler_belle2_svd_V2.pdf
000003004 8564_ $$uhttps://docs.belle2.org/record/3004/files/summary_irmler_belle2_svd.pdf$$zminor correction in title
000003004 8564_ $$uhttps://docs.belle2.org/record/3004/files/poster_irmler_belle2_svd_V2.1.pdf
000003004 8564_ $$uhttps://docs.belle2.org/record/3004/files/poster_irmler_belle2_svd_V3.pdf
000003004 8564_ $$uhttps://docs.belle2.org/record/3004/files/poster_irmler_belle2_svd_V4.pdf