Measurement of the CP-violating phase phi_s in B_s^0->J/psi phi decays in ATLAS at 13 TeV

In the Standard Model of particle physics, CP violation arises due to a single complex phase in the Cabibbo-Kobayashi-Maskawa (CKM) quark mixing matrix. Testing the validity of the CKM mechanism as the only source of CP violation is one of the major experimental challenges in particle physics today. Precise measurement of the CKM parameters therefore constrains the Standard Model, and may reveal effects beyond the Standard Model. Measurement of the time-dependent decay rates of Bs0 ->J/psi phi provides a theoretically clean method for extracting CP-violating weak mixing phase phi_s. The Standard Model predicts phi_s to be very small and it is very well constrained, while in many new physics models large phi_s values are expected. Bs0->J/psi phi decay channel is sensitive to the new physics contributions, and already small deviations in a measurement of phi_s would be hints for the existence of the new particles. The most recent results from ATLAS are presented in CP-violating mixing phase phi_s and several other parameters describing the Bs0 meson system. The data acquired in 2015-2017 years in pp-collisions at 13 TeV are analysed, it gives improvement by a factor of 2 in precision of phi_s measurement in comparison with previous analysis on Run 1 data. This measurement compared with recent LHCb result and other experiments.