22,924 research outputs found
Dangling-bond spin relaxation and magnetic 1/f noise from the amorphous-semiconductor/oxide interface: Theory
We propose a model for magnetic noise based on spin-flips (not
electron-trapping) of paramagnetic dangling-bonds at the
amorphous-semiconductor/oxide interface. A wide distribution of spin-flip times
is derived from the single-phonon cross-relaxation mechanism for a
dangling-bond interacting with the tunneling two-level systems of the amorphous
interface. The temperature and frequency dependence is sensitive to three
energy scales: The dangling-bond spin Zeeman energy delta, as well as the
minimum (E_min) and maximum (E_max) values for the energy splittings of the
tunneling two-level systems. We compare and fit our model parameters to a
recent experiment probing spin coherence of antimony donors implanted in
nuclear-spin-free silicon [T. Schenkel {\it et al.}, Appl. Phys. Lett. 88,
112101 (2006)], and conclude that a dangling-bond area density of the order of
10^{14}cm^{-2} is consistent with the data. This enables the prediction of
single spin qubit coherence times as a function of the distance from the
interface and the dangling-bond area density in a real device structure. We
apply our theory to calculations of magnetic flux noise affecting SQUID devices
due to their Si/SiO_2 substrate. Our explicit estimates of flux noise in SQUIDs
lead to a noise spectral density of the order of 10^{-12}Phi_{0}^{2} {Hz}^{-1}
at f=1Hz. This value might explain the origin of flux noise in some SQUID
devices. Finally, we consider the suppression of these effects using surface
passivation with hydrogen, and the residual nuclear-spin noise resulting from a
perfect silicon-hydride surface.Comment: Final published versio
A model for companies to overcome US–China conflict on international trade
This article aims to study international trade specificity and the main activities of Chinese companies in US markets. It addresses the strategic tools of companies and their application in a global and very competitive market, framed by public policies and governments’ strategies. It explores the principles of the internal and external environment of the countries. The main research question is: what are the dimensions of a model to potentiate the US–China Companies? The principal methodology used in this research was a literature review, and the analysis was based on the papers that research the theme US and China trade relations. The findings reflect that international trade is conditioned by the government politics, and there are several other obstacles that a US or Chinese company need to overcome: (a) economic forces; (b) technological forces; (c) political–legal forces; (d) sociocultural forces; and (e) physical forces.info:eu-repo/semantics/publishedVersio
Space-time Torsion and Neutrino Oscillations in Vacuum
The objective of this study is to verify the consistency of the prescription
of alternative minimum coupling (connection) proposed by the Teleparallel
Equivalent to General Relativity (TEGR) for the Dirac equation. With this aim,
we studied the problem of neutrino oscillations in Weitzenbock space-time in
the Schwarzschild metric. In particular, we calculate the phase dynamics of
neutrinos. The relation of spin of the neutrino with the space-time torsion is
clarified through the determination of the phase differences between spin
eigenstates of the neutrinos.Comment: 07 pages, no figure
Statistical Dynamics of Religions and Adherents
Religiosity is one of the most important sociological aspects of populations.
All religions may evolve in their beliefs and adapt to the society
developments. A religion is a social variable, like a language or wealth, to be
studied like any other organizational parameter.
Several questions can be raised, as considered in this study: e.g. (i) from a
``macroscopic'' point of view : How many religions exist at a given time? (ii)
from a ``microscopic'' view point: How many adherents belong to one religion?
Does the number of adherents increase or not, and how? No need to say that if
quantitative answers and mathematical laws are found, agent based models can be
imagined to describe such non-equilibrium processes.
It is found that empirical laws can be deduced and related to preferential
attachment processes, like on evolving network; we propose two different
algorithmic models reproducing as well the data. Moreover, a population
growth-death equation is shown to be a plausible modeling of evolution dynamics
in a continuous time framework. Differences with language dynamic competition
is emphasized.Comment: submitted to EP
Standard map in magnetized relativistic systems: fixed points and regular acceleration
We investigate the concept of a standard map for the interaction of
relativistic particles and electrostatic waves of arbitrary amplitudes, under
the action of external magnetic fields. The map is adequate for physical
settings where waves and particles interact impulsively, and allows for a
series of analytical result to be exactly obtained. Unlike the traditional form
of the standard map, the present map is nonlinear in the wave amplitude and
displays a series of peculiar properties. Among these properties we discuss the
relation involving fixed points of the maps and accelerator regimes.Comment: Work to appear in Phys. Rev. E. 2 figure
Symmetries of Riemann Ellipsoids
The results of Dirichlet, Dedekind and Riemann on 'ellipsoidal figures of equilibrium' of rotating selfgravitating fluids are reviewed in the context of the geometric theory of Hamiltonian systems with symmetry
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