# Browse Physics

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The potential discovery of anyons in a fractional quantum Hall device tests the limits of what is known about particles confined to two dimensions.

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The experimental realization of quantum degenerate cold Fermi gases with large hyperfine spins opens up a new opportunity for exotic many-body physics.

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When electronic instabilities give rise to three coexisting density waves, interference between them may lock into a state with helicity.

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Networks of photonic devices with broken time-reversal symmetry may provide a way to create a quantum simulator to study strongly correlated systems.

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New theoretical work shows that in two-dimensional condensed matter systems, one-dimensional processes such as forward or backward scattering have a dramatic effect on the physical behavior of fermions near a quantum critical point and derail attempts to get an accurate description of a non-Fermi-liquid.

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High-resolution angle-dependent quantum oscillations in underdoped cuprates and unrestricted fits are used to suggest a new Fermi surface topology.

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By doping the topological insulator Bi2Te3 with magnetic manganese, researchers have turned it into a dilute ferromagnetic semiconductor.

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A fundamental theoretical technique for treating interacting fermions confined to one dimension is generalized to include systems out of equilibrium.

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Unconventional superconductors in the proximity of a topological insulator exhibit zero-energy Majorana surface states.

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A new renormalization group approach that maps lattice problems to tensor networks may hold the key to solving seemingly intractable models of strongly correlated systems in any dimension.

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