Quantum matter physics is the branch of physics that studies systems of very large numbers of particles in a condensed state, like solids or liquids. Quantum 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.
Format results
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The unitary Fermi gas across the superfluid transition
Olga Goulko University of Massachusetts Amherst
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Fibonacci Anyons From Abelian Bilayer Quantum Hall States
Abolhassan Vaezi Cornell University
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Are superselection rules fundamental?
Robert Spekkens Perimeter Institute for Theoretical Physics
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DMRG Analysis of Mobile Impurities and Orbital-selective Mott Phases
Julian (Jose) Rincon Universidad de los Andes
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Exact holographic mapping and emergent space-time geometry
Xiaoliang Qi Stanford University
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Numerical detection of symmetry protected and symmetry enriched topological phases
Frank Pollmann Max Planck Institute for Physics, Munich (Werner-Heisenberg-Institut)
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The emergent of the chiral spin liquid in kagome Heisenberg model
Dong-Ning Sheng California State University, Northridge
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Paying the price of naturalness with a supersymmetric twin Higgs
Kiel Howe Stanford University
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