000001088 001__ 1088
000001088 005__ 20180807074256.0
000001088 037__ $$aBELLE2-TALK-CONF-2018-103
000001088 041__ $$aeng
000001088 088__ $$aBELLE2-TALK-DRAFT-2018-088
000001088 100__ $$aPrasanth Krishnan
000001088 245__ $$aPrecision measurements of the CKM parameters (Mainly gamma/phi3 measurements)
000001088 260__ $$aFPCP 2018$$c2018-07-17
000001088 300__ $$amult. p
000001088 500__ $$a15 minutes
000001088 520__ $$aThe CKM angle γ is the least well known of the angles of the unitarity triangle and the only one that is accessible with tree-level decays in a theoretically clean way. The Belle II experiment is a substantial upgrade of the Belle detector and will operate at the SuperKEKB energy-asymmetric e+e− collider. The accelerator has already successfully completed the first phase of commissioning in 2016 and first electron positron collisions in Belle II happened in April 2018. The design luminosity of SuperKEKB is 8×10^35 cm−2s−1 and the Belle II experiment aims to record 50 ab−1 of data, a factor of 50 more than the Belle experiment. The key method to measure γ is through the interference between B^+ → D^0K^+ and B^+ → D¯^0 K+ decays which occurs if the final state of the charm-meson decay is accessible to both the D0 and D¯0 mesons. To achieve the best sensitivity, a large variety of D and B decay modes is required, which is possible at Belle II experiment as almost any final state can be reconstructed including those with photons. With the ultimate Belle II data sample of 50 ab−1, a determination of γ with a precision of 1 degree or better is foreseen. This talk will explain the details of the planned measurement at Belle II.
000001088 8560_ $$fdoris.yangsoo.kim@desy.de
000001088 8564_ $$uhttps://docs.belle2.org/record/1088/files/BELLE2-TALK-CONF-2018-103.pdf