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Future flavour physics experiments.

Neville Harnew1

  • 1University of Oxford Denys Wilkinson Building, Keble Road Oxford OX1 3RH UK.

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|February 16, 2016
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Summary
This summary is machine-generated.

This review covers flavour physics experiments, focusing on B-physics, charm, and kaon measurements. Future experiments like LHCb upgrade and Belle-II will enhance our understanding of new physics.

Keywords:
Belle‐IICP‐violationFlavour physicsLHCbcharm‐τ factoryrare decays

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Area of Science:

  • Particle Physics
  • High Energy Physics
  • Flavour Physics

Background:

  • Flavour physics studies fundamental particles and their interactions.
  • Precise measurements probe the Standard Model and search for new physics beyond it.

Purpose of the Study:

  • To review the current status of flavour physics.
  • To discuss prospects for present and future experiments.
  • To highlight key measurements in B, charm, and kaon physics.

Main Methods:

  • Analysis of B-physics measurements, including CKM angle gamma and Bs mixing phase phi_s.
  • Study of rare B decays, such as B(s)0 to mu+mu-.
  • Investigation of charm and kaon physics, focusing on A_CP and K to pi nu nu-bar decays.

Main Results:

  • Sensitive probes of new physics identified in B-physics.
  • Key measurements in charm and kaon physics highlighted.
  • Complementarity of future experiments like LHCb upgrade and Belle-II discussed.

Conclusions:

  • Current experiments provide crucial insights into flavour physics.
  • Future experiments promise enhanced sensitivity for new physics searches.
  • Synergy between LHCb upgrade and Belle-II will advance the field.