2,390 research outputs found
Metal-insulator transition induced by 16O -18O oxygen isotope exchange in colossal negative magnetoresistance manganites
The effect of 16O-18O isotope exchange on the electric resistivity was
studied for (La(1-y)Pr(y))0.7Ca0.3MnO3 ceramic samples. Depending on y, this
mixed perovskite exhibited different types of low-temperature behavior ranging
from ferromagnetic metal (FM) to charge ordered (CO) antiferromagnetic
insulator. It was found that at y=0.75, the substitution of 16O by 18O results
in the reversible transition from a FM to a CO insulator at zero magnetic
field. The applied magnetic field (H >= 2 T) transformed the sample with 18O
again to the metallic state and caused the increase in the FM transition
temperature Tc of the 16O sample. As a result, the isotope shift of Tc at H = 2
T was as high as 63 K. Such unique sensitivity of the system to oxygen isotope
exchange, giving rise even to the metal-insulator transition, is discussed in
terms of the isotope dependence of the effective electron bandwidth which
shifts the balance between the CO and FM phases.Comment: 5 pages (RevTeX), 2 eps figures included, to appear in J. Appl. Phys.
83, (1998
Optimizing Information Freshness in Wireless Networks under General Interference Constraints
Age of information (AoI) is a recently proposed metric for measuring
information freshness. AoI measures the time that elapsed since the last
received update was generated. We consider the problem of minimizing average
and peak AoI in a wireless networks, consisting of a set of source-destination
links, under general interference constraints. When fresh information is always
available for transmission, we show that a stationary scheduling policy is peak
age optimal. We also prove that this policy achieves average age that is within
a factor of two of the optimal average age. In the case where fresh information
is not always available, and packet/information generation rate has to be
controlled along with scheduling links for transmission, we prove an important
separation principle: the optimal scheduling policy can be designed assuming
fresh information, and independently, the packet generation rate control can be
done by ignoring interference. Peak and average AoI for discrete time G/Ber/1
queue is analyzed for the first time, which may be of independent interest
Spin wave dispersion based on the quasiparticle self-consistent method: NiO, MnO and -MnAs
We present spin wave dispersions in MnO, NiO, and -MnAs based on the
quasiparticle self-consistent method (\qsgw), which determines an optimum
quasiparticle picture. For MnO and NiO, \qsgw results are in rather good
agreement with experiments, in contrast to the LDA and LDA+U description. For
-MnAs, we find a collinear ferromagnetic ground state in \qsgw, while
this phase is unstable in the LDA.Comment: V2: add another figure for SW life time. Formalism is detaile
Exotic Gapless Mott Insulators of Bosons on Multi-Leg Ladders
We present evidence for an exotic gapless insulating phase of hard-core
bosons on multi-leg ladders with a density commensurate with the number of
legs. In particular, we study in detail a model of bosons moving with direct
hopping and frustrating ring exchange on a 3-leg ladder at filling.
For sufficiently large ring exchange, the system is insulating along the ladder
but has two gapless modes and power law transverse density correlations at
incommensurate wave vectors. We propose a determinantal wave function for this
phase and find excellent comparison between variational Monte Carlo and density
matrix renormalization group calculations on the model Hamiltonian, thus
providing strong evidence for the existence of this exotic phase. Finally, we
discuss extensions of our results to other -leg systems and to -layer
two-dimensional structures.Comment: 5 pages, 4 figures; v3 is the print version; supplemental material
attache
Observation of Galactic Sources of Very High Energy Gamma-Rays with the MAGIC Telescope
The MAGIC telescope with its 17m diameter mirror is today the largest
operating single-dish Imaging Air Cherenkov Telescope (IACT). It is located on
the Canary Island La Palma, at an altitude of 2200m above sea level, as part of
the Roque de los Muchachos European Northern Observatory. The MAGIC telescope
detects celestial very high energy gamma-radiation in the energy band between
about 50 GeV and 10 TeV. Since the autumn of 2004 MAGIC has been taking data
routinely, observing various objects, like supernova remnants (SNRs), gamma-ray
binaries, Pulsars, Active Galactic Nuclei (AGN) and Gamma-ray Bursts (GRB). We
briefly describe the observational strategy, the procedure implemented for the
data analysis, and discuss the results of observations of Galactic Sources.Comment: Brief Review, to be pulished in: Mod. Phys. Lett.
Bose Metals and Insulators on Multi-Leg Ladders with Ring Exchange
We establish compelling evidence for the existence of new
quasi-one-dimensional descendants of the d-wave Bose liquid (DBL), an exotic
two-dimensional quantum phase of uncondensed itinerant bosons characterized by
surfaces of gapless excitations in momentum space [O. I. Motrunich and M. P. A.
Fisher, Phys. Rev. B {\bf 75}, 235116 (2007)]. In particular, motivated by a
strong-coupling analysis of the gauge theory for the DBL, we study a model of
hard-core bosons moving on the -leg square ladder with frustrating four-site
ring exchange. Here, we focus on four- and three-leg systems where we have
identified two novel phases: a compressible gapless Bose metal on the four-leg
ladder and an incompressible gapless Mott insulator on the three-leg ladder.
The former is conducting along the ladder and has five gapless modes, one more
than the number of legs. This represents a significant step forward in
establishing the potential stability of the DBL in two dimensions. The latter,
on the other hand, is a fundamentally quasi-one-dimensional phase that is
insulating along the ladder but has two gapless modes and incommensurate power
law transverse density-density correlations. In both cases, we can understand
the nature of the phase using slave-particle-inspired variational wave
functions consisting of a product of two distinct Slater determinants, the
properties of which compare impressively well to a density matrix
renormalization group solution of the model Hamiltonian. Stability arguments
are made in favor of both quantum phases by accessing the universal low-energy
physics with a bosonization analysis of the appropriate quasi-1D gauge theory.
We will briefly discuss the potential relevance of these findings to
high-temperature superconductors, cold atomic gases, and frustrated quantum
magnets.Comment: 33 pages, 16 figures; this is the print version, only very minor
changes from v
Post Quantum Cryptography from Mutant Prime Knots
By resorting to basic features of topological knot theory we propose a
(classical) cryptographic protocol based on the `difficulty' of decomposing
complex knots generated as connected sums of prime knots and their mutants. The
scheme combines an asymmetric public key protocol with symmetric private ones
and is intrinsecally secure against quantum eavesdropper attacks.Comment: 14 pages, 5 figure
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