681 research outputs found
How much time does a measurement take?
We consider the problem of measurement using the Lindblad equation, which
allows the introduction of time in the interaction between the measured system
and the measurement apparatus. We use analytic results, valid for weak
system-environment coupling, obtained for a two-level system in contact with a
measurer (Markovian interaction) and a thermal bath (non-Markovian
interaction), where the measured observable may or may not commute with the
system-environment interaction. Analysing the behavior of the coherence, which
tends to a value asymptotically close to zero, we obtain an expression for the
time of measurement which depends only on the system-measurer coupling, and
which does not depend on whether the observable commutes with the system-bath
interaction. The behavior of the coherences in the case of strong
system-environment coupling, found numerically, indicates that an increase in
this coupling decreases the measurement time, thus allowing our expression to
be considered the upper limit for the duration of the process.Comment: REVISED VERSION: 17 pages, 2 figure
Electric field inversion asymmetry: Rashba and Stark effects for holes in resonant tunneling devices
We report experimental evidence of excitonic spin-splitting, in addition to
the conventional Zeeman effect, produced by a combination of the Rashba
spin-orbit interaction, Stark shift and charge screening. The
electric-field-induced modulation of the spin-splitting are studied during the
charging and discharging processes of p-type GaAs/AlAs double barrier resonant
tunneling diodes (RTD) under applied bias and magnetic field. The abrupt
changes in the photoluminescence, with the applied bias, provide information of
the charge accumulation effects on the device.Comment: 4 pages, 2 figure
Soil microbial biomass in grassland areas in the sub region Nhecolandia, Pantanal Sul Mato-grossense.
Ref. R1571-1
Protecting a quantum state from environmental noise by an incompatible finite-time measurement
We show that measurements of finite duration performed on an open two-state
system can protect the initial state from a phase-noisy environment, provided
the measured observable does not commute with the perturbing interaction. When
the measured observable commutes with the environmental interaction, the
finite-duration measurement accelerates the rate of decoherence induced by the
phase noise. For the description of the measurement of an observable that is
incompatible with the interaction between system and environment, we have found
an approximate analytical expression, valid at zero temperature and weak
coupling with the measuring device. We have tested the validity of the
analytical predictions against an exact numerical approach, based on the
superoperator-splitting method, that confirms the protection of the initial
state of the system. When the coupling between the system and the measuring
apparatus increases beyond the range of validity of the analytical
approximation, the initial state is still protected by the finite-time
measurement, according with the exact numerical calculations.Comment: REVISED VERSION: 37 pages, 3 figure
Superovulatory and embryo yielding in sheep using increased exposure time to progesterone associated with a GnRH agonist.
We consider models of Extended Gravity and in particular, generic models
containing scalar-tensor and higher-order curvature terms, as well as a model
derived from noncommutative spectral geometry. Studying, in the weak-field
approximation, the geodesic and Lense-Thirring processions, we impose
constraints on the free parameters of such models by using the recent
experimental results of the Gravity Probe B and LARES satellites.Comment: 17 pages, 2 figure
Establishment of a long term collection of photosyn thetic microrganisms for agroenergy research in Embrapa.
Cod. Trabalho: 98
Valence-band splitting energies in wurtzite InP nanowires : Photoluminescence spectroscopy and ab initio calculations
We investigated experimentally and theoretically the valence-band structure of wurtzite InP nanowires. The wurtzite phase, which usually is not stable for III-V phosphide compounds, has been observed in InP nanowires. We present results on the electronic properties of these nanowires using the photoluminescence excitation technique. Spectra from an ensemble of nanowires show three clear absorption edges separated by 44 meV and 143 meV, respectively. The band edges are attributed to excitonic absorptions involving three distinct valence-bands labeled: A, B, and C. Theoretical results based on"ab initio" calculation gives corresponding valence-band energy separations of 50 meV and 200 meV, respectively, which are in good agreement with the experimental results
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