General properties | |
---|---|
Accelerator type | Synchrotron |
Beam type | Electrons, Positrons |
Target type | Collider |
Beam properties | |
Maximum energy | 2–6 GeV [1] |
Maximum current | 2.2 A [1] |
Maximum luminosity | 2×1035 cm−2·s−1 [1] |
Physical properties | |
Circumference | 478 m [1] |
Location | Novosibirsk, Russia [1] |
Institution | Budker Institute of Nuclear Physics |
Dates of operation | unknown |
Preceded by | VEPP-5 |
Super Charm-Tau factory (SCT) is an electron–positron collider being designed and built by Budker Institute of Nuclear Physics in Novosibirsk. Its main goal is to study the CP-violation in the processes involving charmed hadrons, to investigate decays of the τ-lepton as well as to search for new forms of matter: glueballs, dark matter, etc. [1] [2]
In the SCT the center of mass energy of colliding electrons and positrons will be 2–6 GeV while the luminosity will reach as high as 2×1035 cm−2·s−1. The electrons will be partially polarized. The synchrotron will be operating for 10 years. The particle registration and measurements will done using a universal high performance magnetic detector with the field strength of 1–1.5 Tesla. [1]
The SCT project is one Megascience class projects being built in Russia. [3]
General properties | |
---|---|
Accelerator type | Synchrotron |
Beam type | Electrons, Positrons |
Target type | Collider |
Beam properties | |
Maximum energy | 2–6 GeV [1] |
Maximum current | 2.2 A [1] |
Maximum luminosity | 2×1035 cm−2·s−1 [1] |
Physical properties | |
Circumference | 478 m [1] |
Location | Novosibirsk, Russia [1] |
Institution | Budker Institute of Nuclear Physics |
Dates of operation | unknown |
Preceded by | VEPP-5 |
Super Charm-Tau factory (SCT) is an electron–positron collider being designed and built by Budker Institute of Nuclear Physics in Novosibirsk. Its main goal is to study the CP-violation in the processes involving charmed hadrons, to investigate decays of the τ-lepton as well as to search for new forms of matter: glueballs, dark matter, etc. [1] [2]
In the SCT the center of mass energy of colliding electrons and positrons will be 2–6 GeV while the luminosity will reach as high as 2×1035 cm−2·s−1. The electrons will be partially polarized. The synchrotron will be operating for 10 years. The particle registration and measurements will done using a universal high performance magnetic detector with the field strength of 1–1.5 Tesla. [1]
The SCT project is one Megascience class projects being built in Russia. [3]