23,475 research outputs found
Anomalous dephasing of bosonic excitons interacting with phonons in the vicinity of the Bose-Einstein condensation
The dephasing and relaxation kinetics of bosonic excitons interacting with a
thermal bath of acoustic phonons is studied after coherent pulse excitation.
The kinetics of the induced excitonic polarization is calculated within
Markovian equations both for subcritical and supercritical excitation with
respect to a Bose-Einstein condensation (BEC). For excited densities n below
the critical density n_c, an exponential polarization decay is obtained, which
is characterized by a dephasing rate G=1/T_2. This dephasing rate due to phonon
scattering shows a pronounced exciton-density dependence in the vicinity of the
phase transition. It is well described by the power law G (n-n_c)^2 that can be
understood by linearization of the equations around the equilibrium solution.
Above the critical density we get a non-exponential relaxation to the final
condensate value p^0 with |p(t)|-|p^0| ~1/t that holds for all densities.
Furthermore we include the full self-consistent Hartree-Fock-Bogoliubov (HFB)
terms due to the exciton-exciton interaction and the kinetics of the anomalous
functions F_k= . The collision terms are analyzed and an
approximation is used which is consistent with the existence of BEC. The
inclusion of the coherent x-x interaction does not change the dephasing laws.
The anomalous function F_k exhibits a clear threshold behaviour at the critical
density.Comment: European Physical Journal B (in print
Fragmentation of spherical radioactive heavy nuclei as a novel probe of transient effects in fission
Peripheral collisions with radioactive heavy-ion beams at relativistic
energies are discussed as an innovative approach for probing the transient
regime experienced by fissile systems evolving towards quasi-equilibrium. A
dedicated experiment using the advanced technical installations of GSI,
Darmstadt, permitted to realize ideal conditions for the investigation of
relaxation effects in the meta-stable well. Combined with a highly sensitive
experimental signature, it provides a measure of the transient effects with
respect to the flux over the fission barrier. Within a two-step reaction
process, 45 proton-rich unstable spherical isotopes produced by
projectile-fragmentation of a stable 238U beam have been used as secondary
projectiles. The fragmentation of the radioactive projectiles on lead results
in nearly spherical compound nuclei which span a wide range in excitation
energy and fissility. The decay of these excited systems by fission is studied
with a dedicated set-up which permits the detection of both fission products in
coincidence and the determination of their atomic numbers with high resolution.
The width of the fission-fragment nuclear charge distribution is shown to be
specifically sensitive to pre-saddle transient effects and is used to establish
a clock for the passage of the saddle point. The comparison of the experimental
results with model calculations points to a fission delay of (3.3+/-0.7).10-21s
for initially spherical compound nuclei, independent of excitation energy and
fissility. This value suggests a nuclear dissipation strength at small
deformation of (4.5+/-0.5).1021s-1. The very specific combination of the
physics and technical equipment exploited in this work sheds light on previous
controversial conclusions.Comment: 38 pages, 15 figure
Generic Multifractality in Exponentials of Long Memory Processes
We find that multifractal scaling is a robust property of a large class of
continuous stochastic processes, constructed as exponentials of long-memory
processes. The long memory is characterized by a power law kernel with tail
exponent , where . This generalizes previous studies
performed only with (with a truncation at an integral scale), by
showing that multifractality holds over a remarkably large range of
dimensionless scales for . The intermittency multifractal coefficient
can be tuned continuously as a function of the deviation from 1/2 and of
another parameter embodying information on the short-range amplitude
of the memory kernel, the ultra-violet cut-off (``viscous'') scale and the
variance of the white-noise innovations. In these processes, both a viscous
scale and an integral scale naturally appear, bracketing the ``inertial''
scaling regime. We exhibit a surprisingly good collapse of the multifractal
spectra on a universal scaling function, which enables us to derive
high-order multifractal exponents from the small-order values and also obtain a
given multifractal spectrum by different combinations of and
.Comment: 10 pages + 9 figure
Extreme values and fat tails of multifractal fluctuations
In this paper we discuss the problem of the estimation of extreme event
occurrence probability for data drawn from some multifractal process. We also
study the heavy (power-law) tail behavior of probability density function
associated with such data. We show that because of strong correlations,
standard extreme value approach is not valid and classical tail exponent
estimators should be interpreted cautiously. Extreme statistics associated with
multifractal random processes turn out to be characterized by non
self-averaging properties. Our considerations rely upon some analogy between
random multiplicative cascades and the physics of disordered systems and also
on recent mathematical results about the so-called multifractal formalism.
Applied to financial time series, our findings allow us to propose an unified
framemork that accounts for the observed multiscaling properties of return
fluctuations, the volatility clustering phenomenon and the observed ``inverse
cubic law'' of the return pdf tails
New Indicators for AGN Power: The Correlation Between [O IV] lambda 25.89 micron and Hard X-ray Luminosity for Nearby Seyfert Galaxies
We have studied the relationship between the [O IV] lambda 25.89 micron
emission line luminosities, obtained from Spitzer spectra, the X-ray continua
in the 2-10 keV band, primarily from ASCA, and the 14-195 keV band obtained
with the SWIFT/Burst Alert Telescope (BAT), for a sample of nearby (z < 0.08)
Seyfert galaxies. For comparison, we have examined the relationship between the
[O III] 5007, the 2-10 keV and the 14-195 keV luminosities for the same set of
objects. We find that both the [O IV] and [O III] luminosities are
well-correlated with the BAT luminosities. On the other hand, the [O III]
luminosities are better-correlated with 2-10 keV luminosities than are those of
[O IV]. When comparing [O IV] and [O III] luminosities for the different types
of galaxies, we find that the Seyfert 2's have significantly lower [O III] to
[O IV] ratios than the Seyfert 1's. We suggest that this is due to more
reddening of the narrow line region (NLR) of the Seyfert 2's. Assuming Galactic
dust to gas ratios, the average amount of extra reddening corresponds to a
hydrogen column density of ~ few times 10^21 cm^-2, which is a small fraction
of the X-ray absorbing columns in the Seyfert 2's. The combined effects of
reddening and the X-ray absorption are the probable reason why the [O III]
versus 2-10 keV correlation is better than the [O IV] versus 2-10 keV, since
the [O IV] emission line is much less affected by extinction. Overall, we find
the [O IV] to be an accurate and truly isotropic indicator of the power of the
AGN. This suggests that it can be useful in deconvolving the contribution of
the AGN and starburst to the spectrum of Compton-thick and/or X-ray weak
sources.Comment: Accepted for publication in the Astrophysical Journal. 31 pages, 6
figures, 4 table
Multiplexed Readout of Transmon Qubits with Josephson Bifurcation Amplifiers
Achieving individual qubit readout is a major challenge in the development of
scalable superconducting quantum processors. We have implemented the
multiplexed readout of a four transmon qubit circuit using non-linear
resonators operated as Josephson bifurcation amplifiers. We demonstrate the
simultaneous measurement of Rabi oscillations of the four transmons. We find
that multiplexed Josephson bifurcation is a high-fidelity readout method, the
scalability of which is not limited by the need of a large bandwidth nearly
quantum-limited amplifier as is the case with linear readout resonators.Comment: 7 pages, 6 figures, and 31 reference
SoK: The Ghost Trilemma
Trolls, bots, and sybils distort online discourse and compromise the security
of networked platforms. User identity is central to the vectors of attack and
manipulation employed in these contexts. However it has long seemed that, try
as it might, the security community has been unable to stem the rising tide of
such problems. We posit the Ghost Trilemma, that there are three key properties
of identity -- sentience, location, and uniqueness -- that cannot be
simultaneously verified in a fully-decentralized setting. Many
fully-decentralized systems -- whether for communication or social coordination
-- grapple with this trilemma in some way, perhaps unknowingly. We examine the
design space, use cases, problems with prior approaches, and possible paths
forward. We sketch a proof of this trilemma and outline options for practical,
incrementally deployable schemes to achieve an acceptable tradeoff of trust in
centralized trust anchors, decentralized operation, and an ability to withstand
a range of attacks, while protecting user privacy.Comment: 22 pages with 1 figure and 8 table
Large-eddy simulation and experimental study of heat transfer, nitric oxide emissions and combustion instability in a swirled turbulent high-pressure burner
Nitric oxide formation in gas turbine combustion depends on four key factors: flame stabilization, heat transfer, fuel-air mixing and combustion instability. The design of modern gas turbine burners requires delicate compromises between fuel efficiency, emissions of oxides of nitrogen (NOx) and combustion stability. Burner designs allowing substantial NOx reduction are often prone to combustion oscillations. These oscillations also change the NOx fields. Being able to predict not only the main species field in a burner but also the pollutant and the oscillation levels is now a major challenge for combustion modelling. This must include a realistic treatment of unsteady acoustic phenomena (which create instabilities) and also of heat transfer mechanisms (convection and radiation) which control NOx generation. In this work, large-eddy simulation (LES) is applied to a realistic gas turbine combustion chamber configuration where pure methane is injected through multiple holes in a cone-shaped burner. In addition to a non-reactive simulation, this article presents three reactive simulations and compares them to experimental results. The first reactive simulation neglects effects of cooling air on flame stabilization and heat losses by radiation and convection. The second reactive simulation shows how cooling air and heat transfer affect nitric oxide emissions. Finally, the third reactive simulation shows the effects of combustion instability on nitric oxide emissions. Additionally, the combustion instability is analysed in detail, including the evaluation of the terms in the acoustic energy equation and the identification of the mechanism driving the oscillation. Results confirm that LES of gas turbine combustion requires not only an accurate chemical scheme and realistic heat transfer models but also a proper description of the acoustics in order to predict nitric oxide emissions and pressure oscillation levels simultaneousl
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Defining Authentic Classroom Assessment
A commonly advocated best practice for classroom assessment is to make the assessments authentic. Authentic is often used as meaning the mirroring of real-world tasks or expectations. There is no consensus, however, in the actual definition of the term or the characteristics of an authentic classroom assessment. Sometimes, the realistic component is not even an element of a researcher\u27s or practitioner\u27s meaning. This study presents a conceptual analysis of authentic as it is used in educational research and training to describe an approach to classroom assessment. Nine distinct components or dimensions of authenticity are identified and only one of those is the realistic nature of the assessment. Accessed 54,632 times on https://pareonline.net from January 12, 2012 to December 31, 2019. For downloads from January 1, 2020 forward, please click on the PlumX Metrics link to the right
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