12,776 research outputs found
Hidden unity in the quantum description of matter
We introduce an algebraic framework for interacting quantum systems that
enables studying complex phenomena, characterized by the coexistence and
competition of various broken symmetry states of matter. The approach unveils
the hidden unity behind seemingly unrelated physical phenomena, thus
establishing exact connections between them. This leads to the fundamental
concept of {\it universality} of physical phenomena, a general concept not
restricted to the domain of critical behavior. Key to our framework is the
concept of {\it languages} and the construction of {\it dictionaries} relating
them.Comment: 10 pages 2 psfigures. Appeared in Recent Progress in Many-Body
Theorie
Magnetic vortex crystals in frustrated Mott insulator
Quantum fluctuations become particularly relevant in highly frustrated
quantum magnets and can lead to new states of matter. We provide a simple and
robust scenario for inducing magnetic vortex crystals in frustrated Mott
insulators. By considering a quantum paramagnet that has a gapped spectrum with
six-fold degenerate low energy modes, we study the magnetic field induced
condensation of these modes. We use a dilute gas approximation to demonstrate
that a plethora of multi- condensates are stabilized for different
combinations of exchange interactions. This rich quantum phase diagram includes
magnetic vortex crystals, which are further stabilized by symmetric exchange
anisotropies. Because magnetic skyrmion and domain wall crystals have already
been predicted and experimentally observed, this novel vortex phase completes
the picture of emergent crystals of topologically nontrivial spin
configurations.Comment: 12 pages, 12 figures; published in Phys. Rev.
Field Induced Supersolid Phase in Spin-One Heisenberg Models
We use quantum Monte Carlo methods to demonstrate that the quantum phase
diagram of the S=1 Heisenberg model with uniaxial anisotropy contains an
extended supersolid phase. We also show that this Hamiltonian is a particular
case of a more general and ubiquitous model that describes the low energy
spectrum of a class of {\it isotropic} and {\it frustrated} spin systems. This
crucial result provides the required guidance for finding experimental
realizations of a spin supersolid state.Comment: 4 pages, 4 figure
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