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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McMaster University
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Lobed phase diagram of single crystalline Yb2Ti2O7 in [111] magnetic field
National Institute of Standards & Technology -
Quasiparticle breakdown in the quantum pyrochlore Yb2Ti2O7 in magnetic field
University of Oxford -
The importance of defects and structural flexibility in the physics of quantum spin ices
Johns Hopkins University -
Lightning review on emergent quantum electrodynamics in quantum spin ice
University of Toronto -
Microscopic aspects of insulating rare-earth pyrochlore magnets
University of Toronto -
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Understanding the Emergence of Chiral Spin Liquids in Mott Insulators
University of Toronto -
Many-body physics in a trapped ion quantum simulator
Institute for Quantum Computing (IQC) -
Topological states in honeycomb materials
University of Toronto