92,936 research outputs found
Possible Reentrance of the Fractional Quantum Hall Effect in the Lowest Landau Level
In the framework of a recently developed model of interacting composite
fermions, we calculate the energy of different solid and Laughlin-type liquid
phases of spin-polarized composite fermions. The liquid phases have a lower
energy than the competing solids around the electronic filling factors
nu=4/11,6/17, and 4/19 and may thus be responsible for the fractional quantum
Hall effect at nu=4/11. The alternation between solid and liquid phases when
varying the magnetic field may lead to reentrance phenomena in analogy with the
observed reentrant integral quantum Hall effect.Comment: 4 pages, 3 figures; revised version accepted for publication in Phys.
Rev. Let
Worldwide cloud cover model
Classifying worldwide cloudiness into homogeneous regions, using a satellite data set containing day IR, night IR, incoming, and absorbed solar radiation measurements on a 2.5-degree latitude-longitude grid is considered. Methods of analysis are presented
Quantum Phases in Partially Filled Landau Levels
We compare the energies of different electron solids, such as bubble crystals
with triangular and square symmetry and stripe phases, to those of correlated
quantum liquids in partially filled intermediate Landau levels. Multiple
transitions between these phases when varying the filling of the top-most
partially filled Landau level explain the observed reentrance of the integer
quantum Hall effect. The phase transitions are identified as first-order. This
leads to a variety of measurable phenomena such as the phase coexistence
between a Wigner crystal and a two-electron bubble phase in a Landau-level
filling-factor range , which has recently been observed in
transport measurements under micro-wave irradiation.Comment: 6 pages, 2 figures; to appear in "Proceedings of the 16th
International Conference on High Magnetic Fields in Semiconductor Physics
(SemiMag-16)
Second Generation of Composite Fermions and the Self-Similarity of the Fractional Quantum Hall Effect
A recently developed model of interacting composite fermions, is used to
investigate different composite-fermion phases. Their interaction potential
allows for the formation of both solid and new quantum-liquid phases, which are
interpreted in terms of second-generation composite fermions and which may be
responsible for the fractional quantum Hall states observed at unusual filling
factors, such as nu=4/11. Projection of the composite-fermion dynamics to a
single level, involved in the derivation of the Hamiltonian of interacting
composite fermions, reveals the underlying self-similarity of the model.Comment: 4 pages, 1 figure; to appear in "Proceedings of the 16th
International Conference on High Magnetic Fields in Semiconductor Physics
(SemiMag-16)", only change with respect to v1: correction in authors line, no
changes in manuscrip
Experimental determination of the turbulence in a liquid rocket combustion chamber
The intensity of turbulence and the Lagrangian correlation coefficient for a liquid rocket combustion chamber were determined experimentally using the tracer gas diffusion method. The results indicate that the turbulent diffusion process can be adequately modeled by the one-dimensional Taylor theory; however, the numerical values show significant disagreement with previously accepted values. The intensity of turbulence is higher by a factor of about two, while the Lagrangian correlation coefficient which was assumed to be unity in the past is much less than unity
Searching for star-forming dwarf galaxies in the Antlia cluster
The formation and evolution of dwarf galaxies in clusters need to be
understood, and this requires large aperture telescopes. In this sense, we
selected the Antlia cluster to continue our previous work in the Virgo, Fornax,
and Hydra clusters and in the Local Volume (LV). Because of the scarce
available literature data, we selected a small sample of five blue compact
dwarf (BCD) candidates in Antlia for observation. Using the Gemini South and
GMOS camera, we acquired the Halpha imaging needed to detect star-forming
regions in this sample. With the long-slit spectroscopic data of the brightest
seven knots detected in three BCD candidates, we derived their basic chemical
properties. Using archival VISTA VHS survey images, we derived K_S magnitudes
and surface brightness profile fits for the whole sample to assess basic
physical properties. FS90-98, FS90-106, and FS90-147 are confirmed as BCDs and
cluster members, based on their morphology, K_S surface photometry, oxygen
abundance, and velocity redshift. FS90-155 and FS90-319 did not show any
H{\alpha} emission, and they could not be confirmed as dwarf cluster
star-forming galaxies. Based on our data, we studied some fundamental relations
to compare star forming dwarfs (BCDs and dIs) in the LV and in the Virgo,
Fornax, Hydra, and Antlia clusters. Star-forming dwarfs in nearby clusters
appear to follow same fundamental relations in the near infrared with similar
objects in the LV, specifically the size-luminosity and the
metallicity-luminosity, while other more fundamental relations could not be
checked in Antlia due to lack of data.Comment: Accepted for publication in A&A (early 2014
On the self-similarity in quantum Hall systems
The Hall-resistance curve of a two-dimensional electron system in the
presence of a strong perpendicular magnetic field is an example of
self-similarity. It reveals plateaus at low temperatures and has a fractal
structure. We show that this fractal structure emerges naturally in the
Hamiltonian formulation of composite fermions. After a set of transformations
on the electronic model, we show that the model, which describes interacting
composite fermions in a partially filled energy level, is self-similar. This
mathematical property allows for the construction of a basis of higher
generations of composite fermions. The collective-excitation dispersion of the
recently observed 4/11 fractional-quantum-Hall state is discussed within the
present formalism.Comment: 7 pages, 4 figures; version accepted for publication in Europhys.
Lett., new version contains energy calculations for collective excitations of
the 4/11 stat
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