Condensed matter physics is the branch of physics that studies systems of very large numbers of particles in a condensed state, like solids or liquids. Condensed matter physics wants to answer questions like: why is a material magnetic? Or why is it insulating or conducting? Or new, exciting questions like: what materials are good to make a reliable quantum computer? Can we describe gravity as the behavior of a material? The behavior of a system with many particles is very different from that of its individual particles. We say that the laws of many body physics are emergent or collective. Emergence explains the beauty of physics laws.
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Max Planck Institute for the Physics of Complex Systems
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A solvable model for magnetic skyrmions
Heriot-Watt University -
Inversion-protected higher-order topological superconductivity in monolayer WTe2
University of Maryland, College Park -
Real-space recipes for general topological crystalline states
Fudan University -
Order by Singularity
The Institute of Mathematical Sciences - Chennai -
Quantum Link models to probe new aspects of gauge theories
Saha Institute of Nuclear Physics -
Quantum Work of an Optical Lattice and Boundary Field Theory
Rutgers University -
Colliders and conformal interfaces
L'Ecole Polytechnique Federale de Lausanne (EPFL) -
Entanglement negativity in many-body systems, and holography
University of Illinois at Urbana-Champaign (UIUC) -
Shape dependence of superconformal defects
University of Turin -
Entanglement, free energy and C-theorem in DCFT
University of Tokyo