Bell nonlocality and entanglement in at BESIII
S Wu, C Qian, Q Wang, XR Zhou - Physical Review D, 2024 - APS
The Bell nonlocality and entanglement are two kinds of quantum correlations in quantum
systems. Due to the recent upgrade in the Bei**g Spectrometer III (BESIII) experiment, it is …
systems. Due to the recent upgrade in the Bei**g Spectrometer III (BESIII) experiment, it is …
Measuring Quantum Discord at the LHC
There has been an increasing interest in exploring quantities associated with quantum
information at colliders. We perform a detailed analysis describing how to measure the …
information at colliders. We perform a detailed analysis describing how to measure the …
Entanglement enabled intensity interferometry in ultrarelativistic ultraperipheral nuclear collisions
An important tool in studying the subfemtoscale spacetime structure of matter in
ultrarelativistic heavy-ion collisions is Hanbury Brown–Twiss (HBT) intensity interferometry …
ultrarelativistic heavy-ion collisions is Hanbury Brown–Twiss (HBT) intensity interferometry …
Quark and gluon entanglement in the proton based on a light-front Hamiltonian
Given that the wave function of a proton can be derived relativistically and nonperturbatively
from a light-front quantized Hamiltonian, investigating the quantum correlation between …
from a light-front quantized Hamiltonian, investigating the quantum correlation between …
On bipartite and tripartite entanglement at present and future particle colliders
Entanglement, rooted in the non-deterministic, non-local nature of quantum mechanics,
serves as a fundamental correlation. High-energy particle colliders offer a unique platform …
serves as a fundamental correlation. High-energy particle colliders offer a unique platform …