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Description
After the Higgs discovery, the precise determination of the Higgs boson properties became indispensible for the experimental particle physics. The Circular Electron Positron Collider is one of these proposed future Higgs factories. Colliding the electron and positron at a tunnel with main ring circumference of 100 km, the CEPC is expected to deliver 1 Million Higgs bosons in an extremely clean collision environments. In addition, the CEPC also produces 100 Million W bosons and 10^{11 - 12} Z bosons, which enables precise EW measurements. Using these samples, the CEPC will significantly boost the precision on Higgs properties and EW measurements, with which the physics landscape at 1-10 TeV era can be revealed. In addition, the CEPC can be upgraded to a proton collider with 100 TeV center of mass energy, and searching for heavy particles and new phenomena directly.
Launched in 2012, the CEPC studies have made significant progresses. Many different detector technologies are explored, converging to two sets of benchmark detector geometries. A mature full simulation-reconstruction software tool has been established, with which the physics potential is analyzed at high precision, and the detector geometry is designed & optimized.
This series of seminar will report the current status and progress of the CEPC project. Including:
July 19th, the physics potential and performance study at the CEPC
July 20th, the detector design and optimization at the CEPC
