117 research outputs found
Characterization of a two-transmon processor with individual single-shot qubit readout
We report the characterization of a two-qubit processor implemented with two
capacitively coupled tunable superconducting qubits of the transmon type, each
qubit having its own non-destructive single-shot readout. The fixed capacitive
coupling yields the \sqrt{iSWAP} two-qubit gate for a suitable interaction
time. We reconstruct by state tomography the coherent dynamics of the two-bit
register as a function of the interaction time, observe a violation of the Bell
inequality by 22 standard deviations after correcting readout errors, and
measure by quantum process tomography a gate fidelity of 90%
Exact results for the Barabasi model of human dynamics
Human activity patterns display a bursty dynamics, with interevent times
following a heavy tailed distribution. This behavior has been recently shown to
be rooted in the fact that humans assign their active tasks different
priorities, a process that can be modeled as a priority queueing system [A.-L.
Barabasi, Nature 435, 207 (2005)]. In this work we obtain exact results for the
Barabasi model with two tasks, calculating the priority and waiting time
distribution of active tasks. We demonstrate that the model has a singular
behavior in the extremal dynamics limit, when the highest priority task is
selected first. We find that independently of the selection protocol, the
average waiting time is smaller or equal to the number of active tasks, and
discuss the asymptotic behavior of the waiting time distribution. These results
have important implications for understanding complex systems with extremal
dynamics.Comment: 4 pages, 4 figures, revte
Storage and Retrieval of a Microwave Field in a Spin Ensemble
We report the storage and retrieval of a small microwave field from a
superconducting resonator into collective excitations of a spin ensemble. The
spins are nitrogen-vacancy centers in a diamond crystal. The storage time of
the order of 30 ns is limited by inhomogeneous broadening of the spin ensemble.Comment: 4 pages + supplementary material. Submitted to PR
Circuit QED with a Nonlinear Resonator : ac-Stark Shift and Dephasing
We have performed spectroscopic measurements of a superconducting qubit
dispersively coupled to a nonlinear resonator driven by a pump microwave field.
Measurements of the qubit frequency shift provide a sensitive probe of the
intracavity field, yielding a precise characterization of the resonator
nonlinearity. The qubit linewidth has a complex dependence on the pump
frequency and amplitude, which is correlated with the gain of the nonlinear
resonator operated as a small-signal amplifier. The corresponding dephasing
rate is found to be close to the quantum limit in the low-gain limit of the
amplifier.Comment: Paper : 4 pages, 3 figures; Supplementary material : 1 page, 1 figur
Role of Activity in Human Dynamics
The human society is a very complex system; still, there are several
non-trivial, general features. One type of them is the presence of power-law
distributed quantities in temporal statistics. In this Letter, we focus on the
origin of power-laws in rating of movies. We present a systematic empirical
exploration of the time between two consecutive ratings of movies (the
interevent time). At an aggregate level, we find a monotonous relation between
the activity of individuals and the power-law exponent of the interevent-time
distribution. At an individual level, we observe a heavy-tailed distribution
for each user, as well as a negative correlation between the activity and the
width of the distribution. We support these findings by a similar data set from
mobile phone text-message communication. Our results demonstrate a significant
role of the activity of individuals on the society-level patterns of human
behavior. We believe this is a common character in the interest-driven human
dynamics, corresponding to (but different from) the universality classes of
task-driven dynamics.Comment: 5 pages, 6 figures. Accepted by EP
Структура и свойства керамических композитов, модифицированных углеродными нанотрубками и нановолокнами Al2O3
Работа направлена на установление закономерности влияния вводимых добавок одностенных/многостенных УНТ и нановолокон Al2O3 на структуру, фазовый состав и физико-механические свойства композитов на основе оксидов алюминия и циркония. Показано, что использование УНТ и нановолокон Al2O3 при изготовлении композитов, может приводить к существенному повышению трещиностойкость керамических материалов. Кроме того, варьируя концентрацию вводимых добавок, можно получать оптимальные свойства керамических композитов для конкретных применений.The work is aimed at establishing the regularity of the influence of the introduced additives of single-wall/multi-walled CNTs and Al2O3 nanofibers on the structure, phase composition, and mechanical properties of composites based on alumina and zirconia. It is shown that the use of CNTs and Al2O3 nanofibers in the manufacture of composites can lead to a significant increase in the fracture toughness of ceramic materials. In addition, by varying the concentration of the added additives, it is possible to obtain the optimal properties of ceramic composites for specific applications
Modeling bursts and heavy tails in human dynamics
Current models of human dynamics, used from risk assessment to
communications, assume that human actions are randomly distributed in time and
thus well approximated by Poisson processes. We provide direct evidence that
for five human activity patterns the timing of individual human actions follow
non-Poisson statistics, characterized by bursts of rapidly occurring events
separated by long periods of inactivity. We show that the bursty nature of
human behavior is a consequence of a decision based queuing process: when
individuals execute tasks based on some perceived priority, the timing of the
tasks will be heavy tailed, most tasks being rapidly executed, while a few
experiencing very long waiting times. We discuss two queueing models that
capture human activity. The first model assumes that there are no limitations
on the number of tasks an individual can hadle at any time, predicting that the
waiting time of the individual tasks follow a heavy tailed distribution with
exponent alpha=3/2. The second model imposes limitations on the queue length,
resulting in alpha=1. We provide empirical evidence supporting the relevance of
these two models to human activity patterns. Finally, we discuss possible
extension of the proposed queueing models and outline some future challenges in
exploring the statistical mechanisms of human dynamics.Comment: RevTex, 19 pages, 8 figure
Análise do potencial alelopático de extratos aquosos de Eragrostis plana (Poaceae) por meio de caracteres macroscópicos no sistema Allium cepa.
O Bioma Pampa apresenta uma grande riqueza de espécies vegetais com infinitas utilizações
Hybrid quantum circuit with a superconducting qubit coupled to a spin ensemble
We report the experimental realization of a hybrid quantum circuit combining
a superconducting qubit and an ensemble of electronic spins. The qubit, of the
transmon type, is coherently coupled to the spin ensemble consisting of
nitrogen-vacancy (NV) centers in a diamond crystal via a frequency-tunable
superconducting resonator acting as a quantum bus. Using this circuit, we
prepare arbitrary superpositions of the qubit states that we store into
collective excitations of the spin ensemble and retrieve back later on into the
qubit. These results constitute a first proof of concept of spin-ensemble based
quantum memory for superconducting qubits.Comment: 13 pages, 4 figures, plus supplementary informatio
Avaliação de quatro genótipos de trevo branco.
O objetivo do trabalho foi selecionar plantas de trevo branco de quatro genótipos visando o desenvolvimento de cultivar sintética, avaliando-se características das plantas como persistência, comprimento do estolão e vigor.Claudia Cristina Gulias Gomes, editora técnica
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