Spin Polarization, Viscosity, Magnetohydrodynamics and Magneto-Chiral Instability in Quantum Matter

Explore cutting-edge research in quantum matter physics through this conference session featuring four specialized presentations on chirality, vorticity, and magnetic fields. Delve into Cong Yi's analysis of spin polarization of Λ hyperons along beam direction in p+Pb collisions at √sN N = 8.16 TeV using hydrodynamic approaches, examining how particle collisions reveal fundamental properties of matter under extreme conditions. Investigate Georgii Prokhorov's theoretical work connecting viscosity, entanglement and acceleration in quantum systems, bridging concepts from fluid dynamics and quantum information theory. Study Khwahish Kushwah's research on relativistic magnetohydrodynamics of two-component plasmas in both astrophysical accretion disks and heavy-ion collisions, demonstrating the universal principles governing plasma behavior across vastly different scales. Examine Nick Abboud's investigation of dynamic magneto-chiral instability in semiconductors, exploring how magnetic fields and chirality interact in solid-state systems. Gain insights into the latest developments in theoretical and experimental approaches to understanding quantum matter, from high-energy particle physics to condensed matter systems, as presented at the 9th Conference on Chirality, Vorticity and Magnetic Fields in Quantum Matter hosted by ICTP-SAIFR.