2,590 research outputs found
Quantum Hall induced currents and the magnetoresistance of a quantum point contact
We report an investigation of quantum Hall induced currents by simultaneous
measurements of their magnetic moment and their effect on the conductance of a
quantum point contact (QPC). Features in the magnetic moment and QPC resistance
are correlated at Landau-level filling factors nu=1, 2 and 4, which
demonstrates the common origin of the effects. Temperature and non-linear sweep
rate dependences are observed to be similar for the two effects. Furthermore,
features in the noise of the induced currents, caused by breakdown of the
quantum Hall effect, are observed to have clear correlations between the two
measurements. In contrast, there is a distinct difference in the way that the
induced currents decay with time when the sweeping field halts at integer
filling factor. We attribute this difference to the fact that, while both
effects are sensitive to the magnitude of the induced current, the QPC
resistance is also sensitive to the proximity of the current to the QPC
split-gate. Although it is clearly demonstrated that induced currents affect
the electrostatics of a QPC, the reverse effect, the QPC influencing the
induced current, was not observed
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High-voltage MOSFET bipolar square-wave generator
he construction of a highâvoltage (up to 1000 V) bipolar metalâoxideâsemiconductor fieldâeffect transistor squareâwave generator is described. This generator is capable of producing both positive and negative going square waves with variable amplitude, repetition rate, and width. The circuit was designed for ferroelectrics research, however other applications are possible. The rise time of the prototype was 200 ns which was quite satisfactory for the present ferroelectric research project however the rise time can be decreased to 50 ns if necessary. The reader with a modest knowledge of electronics should be able to construct the circuit. Possible pitfalls and critical points are discussed
Conquering the great divide: Rural mothers of children with chronic health conditions accessing specialist medical care for their children
© 2019 Australian College of Nursing Ltd Background: Globally, the number of children with chronic health conditions (CHCs) is increasing and mothers are mostly responsible for their care. Aim: Few studies have focused on rural mothers and their experiences of sourcing health care for their children who have CHCs. The purpose of this study was to explore these experiences. Method: Using a phenomenological approach, semi-structured interviews were conducted in early 2018. The Consolidated criteria for Reporting Qualitative research (COREQ) guidelines were followed. Sixteen rural mothers were interviewed regarding their experiences of accessing health care to provide optimal management of their children's CHC. Findings: Thematic analysis of resulting data revealed the overarching theme âConquering the great divideâ. From this overarching theme, four themes emerged. This paper focuses on the first theme, âHeading to the big smoke: accessâ. Discussion: Rural mothers felt challenged accessing health care for their children in the major cities whilst also maintaining routine family life back home. Conclusion: Understanding these rural women's experiences could assist health care professionals to develop strategies to facilitate rural mothers accessing services for their children with a CHC
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Recent results from the SLD using a highly polarized electron beam
New results are presented on the fermion asymmetries, A{sub b} and A{sub c}, and the b-branching ratio, R{sub b}, using a data sample of 150,000Z{degrees} decays collected by the SLD during 1993 and 1994. The fermion asymmetries exploit the highly polarized electron beam available at the SLC (63.0%{plus_minus}1.1% during 1993 and increasing to a preliminary value of 78.2%{plus_minus}2.0% during 1994) to perform direct measurements of A{sub b} and A{sub c}. The preliminary results obtained are A{sub b} = 0.82{plus_minus}0.06(stat){plus_minus}0.08(syst), A{sub c} = 0.63{plus_minus}0.13(stat){plus_minus}0.08(syst) and R{sub b} = 0.218{plus_minus}0.004(stat){plus_minus}0.004(syst){plus_minus}0.003(R{sub c}). In addition, the measurement of sin{sup 2} {theta}{sub W}{sup eff} from the 1993 A{sub LR} result is reviewed. The result obtained is sin{sup 2} {theta}{sub W}{sup eff} = 0.2292{plus_minus}0.0009(stat){plus_minus}0.0004(syst)
Causal Responsibility and Robust Causation
How do people judge the degree of causal responsibility that an agent has for the outcomes of her actions? We show that a relatively unexplored factor â the robustness (or stability) of the causal chain linking the agentâs action and the outcome â influences judgments of causal responsibility of the agent. In three experiments, we vary robustness by manipulating the number of background circumstances under which the action causes the effect, and find that causal responsibility judgments increase with robustness. In the first experiment, the robustness manipulation also raises the probability of the effect given the action. Experiments 2 and 3 control for probability-raising, and show that robustness still affects judgments of causal responsibility. In particular, Experiment 3 introduces an Ellsberg type of scenario to manipulate robustness, while keeping the conditional probability and the skill deployed in the action fixed. Experiment 4, replicates the results of Experiment 3, while contrasting between judgments of causal strength and of causal responsibility. The results show that in all cases, the perceived degree of responsibility (but not of causal strength) increases with the robustness of the action-outcome causal chain
Exchange interaction effects in inter-Landau level Auger scattering in a two-dimensional electron gas
We consider the influence of spin effects on the inter-Landau level
electron-electron scattering rate in a two-dimensional electron gas. Due to the
exchange spin splitting, the Landau levels are not equidistant. This leads to
the suppresion of Auger processes and a nonlinear dependence of the lifetime on
the concentration of the excited electrons even at very low excitation levels.Comment: 10 pages, 3 figure
The influence of the long-lived quantum Hall potential on the characteristics of quantum devices
Novel hysteretic effects are reported in magneto-transport experiments on
lateral quantum devices. The effects are characterized by two vastly different
relaxation times (minutes and days). It is shown that the observed phenomena
are related to long-lived eddy currents. This is confirmed by torsion-balance
magnetometry measurements of the same 2-dimensional electron gas (2DEG)
material. These observations show that the induced quantum Hall potential at
the edges of the 2DEG reservoirs influences transport through the devices, and
have important consequences for the magneto-transport of all lateral quantum
devices.Comment: 5 pages, 4 figure
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
Tuning gaps and phases of a two-subband system in a quantizing magnetic field
In this work we study the properties of a two-subband quasi-two-dimensional
electron system in a strong magnetic field when the electron filling factor is
equal to four. When the cyclotron energy is close to the intersubband splitting
the system can be mapped onto a four-level electron system with an effective
filling factor of two. The ground state is either a ferromagnetic state or a
spin-singlet state, depending on the values of the inter-level splitting and
Zeeman energy. The boundaries between these phases are strongly influenced by
the inter-electron interaction. A significant exchange-mediated enhancement of
the excitation gap results in the suppression of the electron-phonon
interaction. The rate of absorption of non-equilibrium phonons is calculated as
a function of Zeeman energy and inter-subband splitting. The phonon absorption
rate has two peaks as a function of intersubband splitting and has a step-like
structure as a function of Zeeman energy
International High Performance Buildings Conference at Purdue
ABSTRACT Energy conservation has become a hot topic in America during recent years. With the rising costs of energy, alternative systems that reduce energy consumption are becoming much more popular with the general public. One of the major sources of energy consumption is heating water. Such systems have multiple drawbacks, one of which is the exorbitant up-front costs associated with them. This paper explores the development and analysis of a low cost hybrid water heating system that pre-heats water using aluminum collectors that passively transfer ambient attic heat into the incoming water. When hot water is demanded, the system replaces hot water in the conventional heater with pre-heated water from the attic collectors. Hardware analysis shows that it is feasible to develop such as system for under 500. The aluminum attic collectors in the system design absorb an average 69.8BTU/Foot/Hr. A standard 30 gallon system consists of 20' of aluminum pipe, for a total absorption rate of 1396 BTU/Hour. A simulation study performed on the system design shows that the system can reduce the energy required to heat incoming water by as much as 35%. An average family of four using such a system with an electric water heater can result in a yearly savings of approximately 300 in addition to emitting 2.8 tons less CO 2 . At a cost of less than $500, the new design is much less expensive than other alternative water heating systems such as solar or geo-thermal which can easily cost in the thousands. The new system design provides a viable low cost alternative for consumers that are interested in saving both money and reducing pollution
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