1,065 research outputs found
Isometric Embeddings of MetricQ-vector Spaces intoQN
AbstractLetWbe ann-dimensionalQ-vector space which has a positive definite symmetric bilinear form. We prove thatWis isometrically embeddable intoQn+3. We give a formula to obtain the minimumNsuch thatWis isometrically embeddable intoQN
Intrinsic gap and exciton condensation in the nu_T=1 bilayer system
We investigate the quasiparticle excitation of the bilayer quantum Hall (QH)
system at total filling factor in the limit of
negligible interlayer tunneling under tilted magnetic field. We show that the
intrinsic quasiparticle excitation is of purely pseudospin origin and solely
governed by the inter- and intra-layer electron interactions. A model based on
exciton formation successfully explains the quantitative behavior of the
quasiparticle excitation gap, demonstrating the existence of a link between the
excitonic QH state and the composite fermion liquid. Our results provide a new
insight into the nature of the phase transition between the two states.Comment: 4 pages, 3 figure
Anisotropy of Magnetoresistance Hysteresis around the Quantum Hall State in Tilted Magnetic Field
We present an anisotropy of the hysteretic transport around the spin
transition point at Landau level filling factor in tilted magnetic
field. When the direction of the in-plane component of the magnetic field
is normal to the probe current , a strong hysteretic
transport due to the current-induced nuclear spin polarization occurs. When
is parallel to , on the other hand, the hysteresis almost
disappears. We also demonstrate that the nuclear spin-lattice relaxation rate
at the transition point increases with decreasing angle between
the directions of and . These results suggest that the
morphology of electron spin domains around is affected by the
current direction.Comment: 4 pages, 4 figure
Mortality secondary to fulminant hepatic failure in patients with prior resolution of hepatitis B virus infection in Japan
© 2006 by [The University of Chicago Press ]ArticleCLINICAL INFECTIOUS DISEASES. 47(5):E52-E56(2008)journal articl
Electric-Field-Induced Nuclear Spin Resonance Mediated by Oscillating Electron Spin Domains in GaAs-Based Semiconductors
We demonstrate an alternative nuclear spin resonance using radio frequency
(RF) electric field (nuclear electric resonance: NER) instead of magnetic
field. The NER is based on the electronic control of electron spins forming a
domain structure. The RF electric field applied to a gate excites spatial
oscillations of the domain walls and thus temporal oscillations of the
hyperfine field to nuclear spins. The RF power and burst duration dependence of
the NER spectrum provides insight into the interplay between nuclear spins and
the oscillating domain walls.Comment: 4 page
Non-equilibrium Studies in Switching Arc Plasmas in Japan
This paper briefly introduce research work examples of non-equilibrium studies in switching arcs. In understanding arc behavior, one often assumes local thermodynamic equilibrium (LTE) condition in the arc plasma. However, actual arc plasmas are not completely and not always in LTE state because of strong temperature change temporally and spatially, and high electric field application etc. Recently, we have a collaboration work in numerical simulations and experimental approaches for decaying arcs without LTE assumption. First, our numerical model is presented for decaying arcs without chemical equilibrium assumption. Secondly, two experimental methods are introduced for measuring electron density in decaying arcs without LTE assumption: Laser Thomson Scattering method and the Schack-Hartmann method. Finally, comparison results is shown between the LTE simulation, the chemically non-equilibrium simulation, and the above experimental measurements
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