6,160 research outputs found
Initial pseudo-steady state & asymptotic KPZ universality in semiconductor on polymer deposition
The Kardar-Parisi-Zhang (KPZ) class is a paradigmatic example of universality
in nonequilibrium phenomena, but clear experimental evidences of asymptotic
2D-KPZ statistics are still very rare, and far less understanding stems from
its short-time behavior. We tackle such issues by analyzing surface
fluctuations of CdTe films deposited on polymeric substrates, based on a huge
spatio-temporal surface sampling acquired through atomic force microscopy. A
\textit{pseudo}-steady state (where average surface roughness and spatial
correlations stay constant in time) is observed at initial times, persisting up
to deposition of monolayers. This state results from a fine
balance between roughening and smoothening, as supported by a phenomenological
growth model. KPZ statistics arises at long times, thoroughly verified by
universal exponents, spatial covariance and several distributions. Recent
theoretical generalizations of the Family-Vicsek scaling and the emergence of
log-normal distributions during interface growth are experimentally confirmed.
These results confirm that high vacuum vapor deposition of CdTe constitutes a
genuine 2D-KPZ system, and expand our knowledge about possible
substrate-induced short-time behaviors.Comment: 13 pages, 8 figures, 2 table
The modulated spin liquid: a new paradigm for URuSi
We argue that near a Kondo breakdown critical point, a spin liquid with
spatial modulations can form. Unlike its uniform counterpart, we find that this
occurs via a second order phase transition. The amount of entropy quenched when
ordering is of the same magnitude as for an antiferromagnet. Moreover, the two
states are competitive, and at low temperatures are separated by a first order
phase transition. The modulated spin liquid we find breaks symmetry, as
recently seen in the hidden order phase of URuSi. Based on this, we
suggest that the modulated spin liquid is a viable candidate for this unique
phase of matter.Comment: 4 pages, 2 figure
Dynamics of Enceladus and Dione inside the 2:1 Mean-Motion Resonance under Tidal Dissipation
In a previous work (Callegari and Yokoyama 2007, Celest. Mech. Dyn. Astr.
vol. 98), the main features of the motion of the pair Enceladus-Dione were
analyzed in the frozen regime, i.e., without considering the tidal evolution.
Here, the results of a great deal of numerical simulations of a pair of
satellites similar to Enceladus and Dione crossing the 2:1 mean-motion
resonance are shown. The resonance crossing is modeled with a linear tidal
theory, considering a two-degrees-of-freedom model written in the framework of
the general three-body planar problem. The main regimes of motion of the system
during the passage through resonance are studied in detail. We discuss our
results comparing them with classical scenarios of tidal evolution of the
system. We show new scenarios of evolution of the Enceladus-Dione system
through resonance not shown in previous approaches of the problem.Comment: 36 pages, 12 figures. Accepted in Celestial Mechanics and Dynamical
Astronom
Unevenly-sampled signals: a general formalism of the Lomb-Scargle periodogram
The periodogram is a popular tool that tests whether a signal consists only
of noise or if it also includes other components. The main issue of this method
is to define a critical detection threshold that allows identification of a
component other than noise, when a peak in the periodogram exceeds it. In the
case of signals sampled on a regular time grid, determination of such a
threshold is relatively simple. When the sampling is uneven, however, things
are more complicated. The most popular solution in this case is to use the
"Lomb-Scargle" periodogram, but this method can be used only when the noise is
the realization of a zero-mean, white (i.e. flat-spectrum) random process. In
this paper, we present a general formalism based on matrix algebra, which
permits analysis of the statistical properties of a periodogram independently
of the characteristics of noise (e.g. colored and/or non-stationary), as well
as the characteristics of sampling.Comment: 10 pages, 11 figures, Astronomy and Astrophysics, in pres
Geração de cenários de mudança de uso do solo na Amazônia Legal brasileira em função do agronegócio e da aplicação de polÃticas públicas.
As mudanças climáticas podem afetar a biodiversidade, da mesma forma, a contÃnua perda da biodiversidade pode, por sua vez, afetar a regulação do clima apresentando graves consequências para o desenvolvimento sustentável e o bem-estar humano. As mudanças no uso da terra, o desmatamento e as mudanças climáticas impactam fortemente o ecossistema da floresta amazônica ameaçando sua resiliência e a sustentabilidade de muitas atividades humanas. Este trabalho descreve a utilização da modelagem dinâmica para gerar cenários de mudança de uso da terra da Amazônia Legal Brasileira, buscando elaborar cenários de mudança de uso/cobertura em função do Agronegócio (agricultura, pastagem e reflorestamento) e considerando o desflorestamento legal, ocasionado pela exploração econômica do território. Os cenários de referência foram baseados nos cenários de desenvolvimento SSP1P, SSP5S e SSP5P do IPCC adapatados a situação de cada estado da Amazônia Legal e considerando-se as polÃticas brasileiras de desenvolvimento durável, tais como implantação do Plano ABC (Agricultura de Baixo Carbono), código florestal, dentre outras. Este trabalho, ainda em desenvolvimento, é parte do projeto ROBIN ? Role of Biodiversity in Climate Cahnge Mitigation ? financiado pela Comissão Europeia (FP7 ENV. 2011.2.1.4 -1: potencial de biodiversidade e ecossistemas para a mitigação das alterações climáticas), cujo objetivo geral é melhorar a compreensão sobre as relações da biodiversidade com o processo de mitigação de mudança climática
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