92 research outputs found
Spin-orbit signatures in the dynamics of singlet-triplet qubits in double quantum dots
We characterize numerically and analytically the signatures of the spin-orbit
interaction in a two-electron GaAs double quantum dot in the presence of an
external magnetic field. In particular, we obtain the return probability of the
singlet state by simulating Landau-Zener voltage detuning sweeps which traverse
the singlet-triplet () resonance. Our results indicate that
non-spin-conserving interdot tunneling processes arising from the spin-orbit
interaction have well defined signatures. These allow direct access to the
spin-orbit interaction scales and are characterized by a frequency shift and
Fourier amplitude modulation of the Rabi flopping dynamics of the
singlet-triplet qubits and . By applying the Bloch-Feshbach
projection formalism, we demonstrate analytically that the aforementioned
effects originate from the interplay between spin-orbit interaction and
processes driven by the hyperfine interaction between the electron spins and
those of the GaAs nuclei
Spin filtering through excited states in double quantum dot pumps
Recently it has been shown that ac-driven double quantum dots can act as spin
pumps and spin filters. By calculating the current through the system for each
spin polarization, by means of the time evolution of the reduced density matrix
in the sequential tunneling regime (Born-Markov approximation), we demonstrate
that the spin polarization of the current can be controlled by tuning the
parameters (amplitude and frequency) of the ac field. Importantly, the pumped
current as a function of the applied frequency presents a series of peaks which
are uniquely associated with a definite spin polarization. We discuss how
excited states participating in the current allow the system to behave as a
bipolar spin filter by tuning the ac frequency and intensity. We also discuss
spin relaxation and decoherence effects in the pumped current and show that
measuring the width of the current vs frequency peaks allows to determine the
spin decoherence time .Comment: 10 pages. 5 figure
Microcontroller-Based Seat Occupancy Detection and Classification
This paper presents a microcontroller-based measurement system to detect and confirm the presence of a subject in a chair. The system relies on a single Force Sensing Resistor (FSR), which may be arranged in the seat or backrest of the chair, that undergoes a sudden resistance change when a subject/object is seated/placed over the chair. In order to distinguish between a subject and an inanimate object, the system also monitors small-signal variations of the FSR resistance caused by respiration. These resistance variations are then directly measured by a low-cost general-purpose microcontroller without using either an analogue processing stage or an analogue-to-digital converter, thus resulting in a low-cost, low-power, compact design solution.Peer ReviewedPostprint (published version
Measuring dynamic signals with direct sensor-to-microcontroller interfaces applied to a magnetoresistive sensor
This paper evaluates the performance of direct interface circuits (DIC), where the sensor is directly connected to a microcontroller, when a resistive sensor subjected to dynamic changes is measured. The theoretical analysis provides guidelines for the selection of the components taking into account both the desired resolution and the bandwidth of the input signal. Such an analysis reveals that there is a trade-off between the sampling frequency and the resolution of the measurement, and this depends on the selected value of the capacitor that forms the RC circuit together with the sensor resistance. This performance is then experimentally proved with a DIC measuring a magnetoresistive sensor exposed to a magnetic field of different frequencies, amplitudes, and waveforms. A sinusoidal magnetic field up to 1 kHz can be monitored with a resolution of eight bits and a sampling frequency of around 10 kSa/s. If a higher resolution is desired, the sampling frequency has to be lower, thus limiting the bandwidth of the dynamic signal under measurement. The DIC is also applied to measure an electrocardiogram-type signal and its QRS complex is well identified, which enables the estimation, for instance, of the heart rate.Postprint (published version
AC-driven double quantum dots as spin pumps and spin filters
We propose and analyze a new scheme of realizing both spin filtering and spin
pumping by using ac-driven double quantum dots in the Coulomb blockade regime.
By calculating the current through the system we demonstrate that the spin
polarization of the current can be controlled by tuning the parameters
(amplitude and frequency) of the ac field. We also discuss spin relaxation and
decoherence effects in the pumped current.Comment: 5 pages, 4 figure
Spin filtering through excited states in double quantum dot pumps
Recently it has been shown that ac-driven double quantum dots can act as spin
pumps and spin filters. By calculating the current through the system for each
spin polarization, by means of the time evolution of the reduced density matrix
in the sequential tunneling regime (Born-Markov approximation), we demonstrate
that the spin polarization of the current can be controlled by tuning the
parameters (amplitude and frequency) of the ac field. Importantly, the pumped
current as a function of the applied frequency presents a series of peaks which
are uniquely associated with a definite spin polarization. We discuss how
excited states participating in the current allow the system to behave as a
bipolar spin filter by tuning the ac frequency and intensity. We also discuss
spin relaxation and decoherence effects in the pumped current and show that
measuring the width of the current vs frequency peaks allows to determine the
spin decoherence time .Comment: 10 pages. 5 figure
Folding studies of immunoglobulin-like β-sandwich proteins suggest that they share a common folding pathway
AbstractBackground: Are folding pathways conserved in protein families? To test this explicitly and ask to what extent structure specifies folding pathways requires comparison of proteins with a common fold. Our strategy is to choose members of a highly diverse protein family with no conservation of function and little or no sequence identity, but with structures that are essentially the same. The immunoglobulin-like fold is one of the most common structural families, and is subdivided into superfamilies with no detectable evolutionary or functional relationship.Results: We compared the folding of a number of immunoglobulin-like proteins that have a common structural core and found a strong correlation between folding rate and stability. The results suggest that the folding pathways of these immunoglobulin-like proteins share common features.Conclusions: This study is the first to compare the folding of structurally related proteins that are members of different superfamilies. The most likely explanation for the results is that interactions that are important in defining the structure of immunoglobulin-like proteins are also used to guide folding
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Coping with strong translational non-crystallographic symmetry and extreme anisotropy in molecular replacement with Phaser: human Rab27a
Data pathologies caused by effects such as diffraction anisotropy and translational non-crystallographic symmetry (tNCS) can dramatically complicate the solution of crystal structures of macromolecules. Such problems were encountered in determining the structure of a mutant form of Rab27a, a member of the Rab GTPases. Mutant Rab27a constructs that crystallise in the free form were designed for use in the discovery of drugs to reduce primary tumour invasiveness and metastasis. One construct, hRab27aMut, crystallised within 24 hours and diffracted to 2.82 Ã… with a unit cell possessing room for a large number of protein copies. Initial efforts to solve the structure using molecular replacement by Phaser were not successful. Analysis of the dataset revealed that the crystals suffered from both extreme anisotropy and strong tNCS. As a result, large numbers of reflections had estimated standard deviations much larger than their measured intensities and their expected intensities, revealing problems with the use of such data at the time in Phaser. By eliminating extremely weak reflections with the largest combined effects of anisotropy and tNCS, these problems could be avoided, allowing a molecular replacement solution to be found. Lessons learned in solving this structure have guided improvements in numerical analysis used in Phaser, particularly in identifying diffraction measurements conveying very little information content. The calculation of information content could also be applied as an alternative to ellipsoidal truncation. The post mortem analysis also revealed an oversight in accounting for measurement errors in the fast rotation function. While the crystal of mutant Rab27a is not amenable to drug screening, the structure can guide new modifications to obtain more suitable crystal forms
La autoevaluación como propuesta para extender y optimizar el espacio de trabajo académico
Presentamos una propuesta de extensión académica, una herramienta que ayuda a los educadores proporcionando un indicador del resultado de sus tareas áulicas.
Este trabajo, se posiciona en un intermedio entre la educación presencial y la educación a distancia. Mediante el uso de herramientas adecuadas se intenta complementar el tiempo de enseñanza presencial y proveer de un mecanismo de autoevaluación de utilidad tanto para el alumno como para el docente. Nuestro sistema efectúa una evaluación diagnóstica de manera automatizada, continua y on-line.
El diseño del mismo, se encuentra basado en metodologÃas de programación de amplia difusión, con soporte de bases de datos y con acceso Web. Consiste en la realización de ejercicios de autoevaluación on-line, recopilación de datos sobre la actividad del alumno y su posterior análisis para obtener indicadores que permitan prever el desempeño académico de forma inmediata a la realización.
De esta manera, obtenemos una herramienta que otorga a los profesores la capacidad de medir continuamente el resultado del proceso de enseñanza y aprendizaje.Eje: TecnologÃa aplicada a la educaciónRed de Universidades con Carreras en Informática (RedUNCI
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