4,025 research outputs found
Quantum Spin Hall Effect and Topological Phase Transition in HgTe Quantum Wells
We show that the Quantum Spin Hall Effect, a state of matter with topological
properties distinct from conventional insulators, can be realized in HgTe/CdTe
semiconductor quantum wells. By varying the thickness of the quantum well, the
electronic state changes from a normal to an "inverted" type at a critical
thickness . We show that this transition is a topological quantum phase
transition between a conventional insulating phase and a phase exhibiting the
QSH effect with a single pair of helical edge states. We also discuss the
methods for experimental detection of the QSH effect.Comment: 22 pages. Submitted to Science for publication on Aug 14, 200
Harmonic coordinates in the string and membrane equations
In this note, we first show that the solutions to Cauchy problems for two
versions of relativistic string and membrane equations are diffeomorphic. Then
we investigate the coordinates transformation presented in Ref. [9] (see (2.20)
in Ref. [9]) which plays an important role in the study on the dynamics of the
motion of string in Minkowski space. This kind of transformed coordinates are
harmonic coordinates, and the nonlinear relativistic string equations can be
straightforwardly simplified into linear wave equations under this
transformation
associated production at LHC in the general 2HDM with Spontaneous CP Violation
Spontaneous CP violation motivates the introduction of two Higgs doublets in
the electroweak theory. Such a simple extension of the standard model has three
neutral Higgs bosons and a pair charged Higgs, especially it leads to rich
CP-violating sources including the induced Kobayashi-Maskawa CP-violating
phase, the mixing of the neutral Higgs bosons due to the CP-odd Higgs and the
effective complex Yukawa couplings of the charged and neutral Higgs bosons.
Within this model, we present the production of a charged Higgs boson in
association with a W boson at the LHC, and calculate in detail the cross
section and the transverse momentum distribution of the associated W boson.Comment: 16 pages, 6 figures, omitted 3 figures, motivations for Type III 2HDM
with SCPV is emphasized, to be published in PR
Steering ecological-evolutionary dynamics to improve artificial selection of microbial communities
Microbial communities often perform important functions that depend on inter-species interactions. To improve community function via artificial selection, one can repeatedly grow many communities to allow mutations to arise, and “reproduce” the highest-functioning communities by partitioning each into multiple offspring communities for the next cycle. Since improvement is often unimpressive in experiments, we study how to design effective selection strategies in silico. Specifically, we simulate community selection to improve a function that requires two species. With a “community function landscape”, we visualize how community function depends on species and genotype compositions. Due to ecological interactions that promote species coexistence, the evolutionary trajectory of communities is restricted to a path on the landscape. This restriction can generate counter-intuitive evolutionary dynamics, prevent the attainment of maximal function, and importantly, hinder selection by trapping communities in locations of low community function heritability. We devise experimentally-implementable manipulations to shift the path to higher heritability, which speeds up community function improvement even when landscapes are high dimensional or unknown. Video walkthroughs: https://go.nature.com/3GWwS6j; https://online.kitp.ucsb.edu/online/ecoevo21/shou2/
Orbitronics: the Intrinsic Orbital Hall Effect in p-Doped Silicon
The spin Hall effect depends crucially on the intrinsic spin-orbit coupling
of the energy band. Because of the smaller spin-orbit coupling in silicon, the
spin Hall effect is expected to be much reduced. We show that the electric
field in p-doped silicon can induce a dissipationless orbital current in a
fashion reminiscent of the spin Hall effect. The vertex correction due to
impurity scattering vanishes and the effect is therefore robust against
disorder. The orbital Hall effect can lead to the accumulation of local orbital
momentum at the edge of the sample, and can be detected by the Kerr effect.Comment: 4 page
Band Collapse and the Quantum Hall Effect in Graphene
The recent Quantum Hall experiments in graphene have confirmed the
theoretically well-understood picture of the quantum Hall (QH) conductance in
fermion systems with continuum Dirac spectrum. In this paper we take into
account the lattice, and perform an exact diagonalization of the Landau problem
on the hexagonal lattice. At very large magnetic fields the Dirac argument
fails completely and the Hall conductance, given by the number of edge states
present in the gaps of the spectrum, is dominated by lattice effects. As the
field is lowered, the experimentally observed situation is recovered through a
phenomenon which we call band collapse. As a corollary, for low magnetic field,
graphene will exhibit two qualitatively different QHE's: at low filling, the
QHE will be dominated by the "relativistic" Dirac spectrum and the Hall
conductance will be odd-integer; above a certain filling, the QHE will be
dominated by a non-relativistic spectrum, and the Hall conductance will span
all integers, even and odd.Comment: 10 page
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