1,738 research outputs found
Formation of misfit dislocations in strained-layer GaAs/In<sub>x</sub>Ga<sub>1âx</sub>As/GaAs heterostructures during postfabrication thermal processing
It is demonstrated that relaxation of GaAs/InxGa1âxAs/GaAs strained-layer heterostructures can be brought about by postfabrication thermal processing. Misfit dislocations are introduced into the structure during thermal processing, even though the thickness of the strained layer is well below the critical value predicted by the MatthewsâBlakeslee model. The misfit dislocations are observed to be of both 60° mixed type and 90° pure edge type. As no relaxation occurs at the lower temperatures encountered during fabrication by molecular-beam epitaxy, it can be inferred that the critical condition for the formation of misfit dislocations is not only a function of strained-layer thickness and composition, but also of temperature. This observation cannot be accounted for by differential thermal expansion or diffusion across the strained-layer interfaces, but the temperature-dependent Peierls force may offer an explanation. The high temperature required to produce relaxation of these structures suggests that they are sufficiently thermally stable for most practical applications
Structure and play: rethinking regulation in the higher education sector
This paper explores possible tactics for academics working within a context of increasing regulation and constraint. One suggested tactic is to move outside of a creativity-conformity binary. Rather than understanding creativity and conformity as separable, where one is seen as excluding the other, the authors consider the potential of examining the relationships between them. The theme of 'structure and play' illustrates the argument. In the first part of the paper, using various examples from art and design - fields generally associated with creativity - the authors explore the interrelatedness of creativity and conformity. For example, how might design styles, which are generally understood as creative outcomes, constrain creativity and lead to conformity within the design field? Is fashion producing creativity or conformity? Conversely, the ways in which conformity provides the conditions for creativity are also examined. For example, the conformity imposed by the state on artists in the former communist bloc contributed to a thriving underground arts movement which challenged conformity and state regulation. Continuing the theme of 'structure and play', the authors recount a story from an Australian university which foregrounds the ongoing renegotiation of power relations in the academy. This account illustrates how programmatic government in a university, with its aim of regulating conduct, can contribute to unanticipated outcomes. The authors propose that a Foucauldian view of distributed power is useful for academics operating in a context of increasing regulation, as it brings into view sites where power might begin to be renegotiated
Phase Transition in \nu=2 Bilayer Quantum Hall State
The Hall-plateau width and the activation energy were measured in the bilayer
quantum Hall state at filling factor \nu=2, 1 and 2/3, by changing the total
electron density and the density ratio in the two quantum wells. Their behavior
are remarkably different from one to another. The \nu=1 state is found stable
over all measured range of the density difference, while the \nu=2/3$ state is
stable only around the balanced point. The \nu=2 state, on the other hand,
shows a phase transition between these two types of the states as the electron
density is changed.Comment: 5 pages including figures, RevTe
Universal Prefactor of Activated Conductivity in the Quantum Hall Effect
The prefactor of the activated dissipative conductivity in a plateau range of
the quantum Hall effect is studied in the case of a long-range random
potential. It is shown that due to long time it takes for an electron to drift
along the perimeter of a large percolation cluster, phonons are able to
maintain quasi-equilibrium inside the cluster. The saddle points separating
such clusters may then be viewed as ballistic point contacts between electron
reservoirs with different electrochemical potentials. The prefactor is
universal and equal to 2 at an integer filling factor and to
2 at .Comment: 4 pages + 2 figures by reques
Simple model for 1/f noise
We present a simple stochastic mechanism which generates pulse trains
exhibiting a power law distribution of the pulse intervals and a
power spectrum over several decades at low frequencies with close to
one. The essential ingredient of our model is a fluctuating threshold which
performs a Brownian motion. Whenever an increasing potential hits the
threshold, is reset to the origin and a pulse is emitted. We show that
if increases linearly in time, the pulse intervals can be approximated
by a random walk with multiplicative noise. Our model agrees with recent
experiments in neurobiology and explains the high interpulse interval
variability and the occurrence of noise observed in cortical
neurons and earthquake data.Comment: 4 pages, 4 figure
Thermal and Tunneling Pair Creation of Quasiparticles in Quantum Hall Systems
We make a semiclassical analysis of thermal pair creations of quasiparticles
at various filling factors in quantum Hall systems. It is argued that the gap
energy is reduced considerably by the Coulomb potential made by impurities. It
is also shown that a tunneling process becomes important at low temperature and
at strong magnetic field. We fit typical experimental data excellently based on
our semiclassical results of the gap energy.Comment: 6 pages, 6 PS figures, to be published in Phys.Rev.
Data journalism beyond majority world countries:Challenges and opportunities
© 2019, © 2019 Informa UK Limited, trading as Taylor & Francis Group. This commentary reflects on the state of research on data journalism and discusses future directions for this line of work. Drawing on theory in international development and postcolonial studies, we discuss three critical pitfalls that we encourage future scholarship in this area to avoid. These include using a linear model of progress, in which journalists in Majority World nations struggle to âcatch upâ to their Minority World counterparts because of the âobstaclesâ they face; reproducing a simplistic split between the âWest and the Restâ, thus missing the complex interaction of structures operating at different levels; and failing to examine journalistic agency due to an overemphasis on the technical structuring of the âtoolsâ used in data journalism. We also encourage scholars to engage in more comparative work rather than single case studies; increase dialogic communication between scholarship produced in, or about, different parts of the world; and incorporate more diverse methodologies with the aim of building theory. More broadly, we advocate for greater critical reflection uponâif not the challenging ofâour dominant modes of thought in order to build more nuanced frameworks for explaining the complex causes, and potentially mixed effects, of data journalism around the world
Universality and Phase Diagram around Half-filled Landau Level
Gated GaAs/AlGaAs heterostructures were used to determine the low-temperature
behavior of the two-dimensional electron gas near filling factor nu=1/2 in the
disorder-magnetic-field plane. We identify a line on which sigma_{xy} is
temperature independent, has value sigma_{xy}=0.5 (e^{2}/h), and a distinct
line on which rho_{xy}=2 (h/e^{2}). The phase boundaries between the Hall
insulator and the principal quantum Hall liquids at nu=1 and 1/3 show
levitation of the delocalized states of the first Landau levels for electrons
and composite fermions. Finally, the data suggest that there is no true
metallic phase around nu=1/2.Comment: 7 pages (Revtex), 5 figure
Evidence of Josephson-coupled superconducting regions at the interfaces of Highly Oriented Pyrolytic Graphite
Transport properties of a few hundreds of nanometers thick (in the graphene
plane direction) lamellae of highly oriented pyrolytic graphite (HOPG) have
been investigated. Current-Voltage characteristics as well as the temperature
dependence of the voltage at different fixed input currents provide evidence
for Josephson-coupled superconducting regions embedded in the internal
two-dimensional interfaces, reaching zero resistance at low enough
temperatures. The overall behavior indicates the existence of superconducting
regions with critical temperatures above 100 K at the internal interfaces of
oriented pyrolytic graphite.Comment: 6 Figures, 5 page
Hopf term and the effective Lagrangian for the Skyrmions in a two-dimensional electron gas at small g-factor
We study interacting electrons in two dimensions moving in the lowest Landau
level under the condition that the Zeeman energy is much smaller than the
Coulomb energy and the filling factor is one. In this case, Skyrmion
quasiparticles play an important role. Here, we present a simple and
transparent derivation of the corresponding effective Lagrangian. In its
kinetic part, we find a non-zero Hopf term the prefactor of which we determine
rigorously. In the Hamiltonian part, we calculate, by means of a gradient
expansion, the Skyrmion-Skyrmion interaction completely up to fourth order in
spatial derivatives.Comment: 4 pages, Late
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