Conveners
Hadron spectroscopy and sub-nucleonic degrees of freedom
- Jianbei Liu (University of Science and Technology of China)
Hadron spectroscopy and sub-nucleonic degrees of freedom
- Jiancheng Yang (nstitute of Modern Physics, Chinese Academy of Sciences)
The electric dipole moment (EDM) of elementary particles, serves as a powerful probe for new physics beyond the Standard Model (SM) and holds the potential to provide novel insights in unraveling the enigma of the matter-dominated universe. Hyperon EDM is a largely unexplored territory. In our recent paper (arxiv:2307.04364), we present a novel method that focuses on entangled...
In our research, we have focused on studying isolated atomic and molecular ions in a vacuum using two electrostatic ion storage rings: RICE at cryogenic temperatures and TMU E-ring at room temperature.
Our recent work has involved observing the deexcitation of small molecular ions in specific vibrational states using a pulsed laser with tunable wavelengths. We have successfully determined...
The Super Tau-Charm Facility (STCF) is a high-luminosity electron-positron collider proposed in China. It will operate in an energy range of 2-7GeV with a peak luminosity higher than 0.5*10^35 cm^2 s^-1. The STCF covers a broad spectrum of physics topics including QCD and hadronic physics, flavor physics and CPV, search for forbidden and rare decays and new particles. The STCF physics goals...
To understand the internal structure of baryons on the quark and gluon freedom is one of the most important and challenging topics of the hadron physics. The internal structure and interaction can be researched by measuring the time-like (TL) electromagnetic form factors (EMFFs) of baryons experimentally. Using the massive amount of data in a wide energy range collected by electron-positron...
The LHC beams cannot be polarized. Hence, the implementation of a dense polarized gas target at the LHCb experiment at CERN, to be operated simultaneously with beam-beam collisions, will enable fixed target interactions to explore a new energy range of spin physics measurements. Unfortunately, typical surface coatings like water, Teflon or aluminium, normally used to avoid polarization losses,...
