6,443 research outputs found
Polymers with nearest- and next nearest-neighbor interactions on the Husimi lattice
The exact grand-canonical solution of a generalized interacting self-avoid
walk (ISAW) model, placed on a Husimi lattice built with squares, is presented.
In this model, beyond the traditional interaction between (nonconsecutive) monomers on nearest-neighbor (NN) sites, an
additional energy is associated to next-NN (NNN) monomers. Three
definitions of NNN sites/interactions are considered, where each monomer can
have, effectively, at most 2, 4 or 6 NNN monomers on the Husimi lattice. The
phase diagrams found in all cases have (qualitatively) the same thermodynamic
properties: a non-polymerized (NP) and a polymerized (P) phase separated by a
critical and a coexistence surface that meet at a tricritical (-) line.
This -line is found even when one of the interactions is repulsive,
existing for in the range , i. e., for in the range . Counterintuitively, a -point exists
even for an infinite repulsion between NN monomers (), being
associated to a coil-"soft globule" transition. In the limit of an infinite
repulsive force between NNN monomers, however, the coil-globule transition
disappears and only a NP-P continuous transition is observed. This particular
case, with , is also solved exactly on the square lattice, using a
transfer matrix calculation, where a discontinuous NP-P transition is found.
For attractive and repulsive forces between NN and NNN monomers, respectively,
the model becomes quite similar to the semiflexible-ISAW one, whose crystalline
phase is not observed here, as a consequence of the frustration due to
competing NN and NNN forces. The mapping of the phase diagrams in canonical
ones is discussed and compared with recent results from Monte Carlo
simulations.Comment: 21 pages, 6 figure
Collapse transition in polymer models with multiple monomers per site and multiple bonds per edge
We present results from extensive Monte Carlo simulations of polymer models
where each lattice site can be visited by up to monomers and no restriction
is imposed on the number of bonds on each lattice edge. These \textit{multiple
monomer per site} (MMS) models are investigated on the square and cubic
lattices, for and , by associating Boltzmann weights ,
and to sites visited by 1, 2 and
3 monomers, respectively. Two versions of the MMS models are considered for
which immediate reversals of the walks are allowed (RA) or forbidden (RF). In
contrast to previous simulations of these models, we find the same
thermodynamic behavior for both RA and RF versions. In three-dimensions, the
phase diagrams - in space - are featured by coil and
globule phases separated by a line of points, as thoroughly
demonstrated by the metric , crossover and entropic
exponents. The existence of the -lines is also confirmed by the second
virial coefficient. This shows that no discontinuous collapse transition exists
in these models, in contrast to previous claims based on a weak bimodality
observed in some distributions, which indeed exists in a narrow region very
close to the -line when . Interestingly, in
two-dimensions, only a crossover is found between the coil and globule phases
Nature of the collapse transition in interacting self-avoiding trails
We study the interacting self-avoiding trail (ISAT) model on a Bethe lattice
of general coordination and on a Husimi lattice built with squares and
coordination . The exact grand-canonical solutions of the model are
obtained, considering that up to monomers can be placed on a site and
associating a weight for a -fold visited site. Very rich phase
diagrams are found with non-polymerized (NP), regular polymerized (P) and dense
polymerized (DP) phases separated by lines (or surfaces) of continuous and
discontinuous transitions. For Bethe lattice with and , the collapse
transition is identified with a bicritical point and the collapsed phase is
associated to the dense polymerized phase (solid-like) instead of the regular
polymerized phase (liquid-like). A similar result is found for the Husimi
lattice, which may explain the difference between the collapse transition for
ISAT's and for interacting self-avoiding walks on the square lattice. For
and (studied on the Bethe lattice only), a more complex phase diagram is
found, with two critical planes and two coexistence surfaces, separated by two
tricritical and two critical end-point lines meeting at a multicritical point.
The mapping of the phase diagrams in the canonical ensemble is discussed and
compared with simulational results for regular lattices.Comment: 12 pages, 13 figure
Kardar-Parisi-Zhang growth on one-dimensional decreasing substrates
Recent experimental works on one-dimensional (1D) circular
Kardar-Parisi-Zhang (KPZ) systems whose radii decrease in time have reported
controversial conclusions about the statistics of their interfaces. Motivated
by this, we investigate here several 1D KPZ models on substrates whose size
changes in time as , focusing on the case . From
extensive numerical simulations, we show that for there exists a
transient regime in which the statistics is consistent with that of flat KPZ
systems (the case), for both . Actually,
for a given model, and , we observe that a difference between
ingrowing () systems arises only at long
times (), when the expanding surfaces cross over to
the statistics of curved KPZ systems, whereas the shrinking ones become
completely correlated. A generalization of the Family-Vicsek scaling for the
roughness of ingrowing interfaces is presented. Our results demonstrate that a
transient flat statistics is a general feature of systems starting with large
initial sizes, regardless their curvature. This is consistent with their recent
observation in ingrowing turbulent liquid crystal interfaces, but it is in
contrast with the apparent observation of curved statistics in colloidal
deposition at the edge of evaporating drops. A possible explanation for this
last result, as a consequence of the very small number of monolayers analyzed
in this experiment, is given. This is illustrated in a competitive growth model
presenting a few-monolayer transient and an asymptotic behavior consistent,
respectively, with the curved and flat statistics.Comment: 5 pages, 3 figure
Modelling and testing consumer trust dimensions in e-commerce
Prior research has found trust to play a significant role in shaping purchase intentions of a consumer. However there has been limited research where consumer trust dimensions have been empirically defined and tested. In this paper we empirically test a path model such that Internet vendors would have adequate solutions to increase trust. The path model presented in this paper measures the three main dimensions of trust, i.e. competence, integrity, and benevolence. And assesses the influence of overall trust of consumers. The paper also analyses how various sources of trust, i.e. consumer characteristics, firm characteristic, website infrastructure and interactions with consumers, influence dimensions of trust. The model is tested using 365 valid responses. Findings suggest that consumers with high overall trust demonstrate a higher intention to purchase online
On the origins of scaling corrections in ballistic growth models
We study the ballistic deposition and the grain deposition models on
two-dimensional substrates. Using the Kardar-Parisi-Zhang (KPZ) ansatz for
height fluctuations, we show that the main contribution to the intrinsic width,
which causes strong corrections to the scaling, comes from the fluctuations in
the height increments along deposition events. Accounting for this correction
in the scaling analysis, we obtained scaling exponents in excellent agreement
with the KPZ class. We also propose a method to suppress these corrections,
which consists in divide the surface in bins of size and use only
the maximal height inside each bin to do the statistics. Again, scaling
exponents in remarkable agreement with the KPZ class were found. The binning
method allowed the accurate determination of the height distributions of the
ballistic models in both growth and steady state regimes, providing the
universal underlying fluctuations foreseen for KPZ class in 2+1 dimensions. Our
results provide complete and conclusive evidences that the ballistic model
belongs to the KPZ universality class in dimensions. Potential
applications of the methods developed here, in both numerics and experiments,
are discussed.Comment: 8 pages, 7 figure
A Frente de Libertação Nacional na Guerra Por Independência e na Formação do Estado Argelino
Trabalho de Conclusão de Curso apresentado ao Instituto Latino-Americano de Economia, Sociedade e Política da Universidade Federal da Integração Latino-Americana, como requisito parcial à obtenção do título de Bacharel em Ciência Política e Sociologia – Sociedade, Estado e Política na América Latina. Orientador: Prof. Dr°. Rodrigo Luiz Medeiros Silva.No contexto histórico da Guerra Fria e pós II guerra mundial, a maior parte dos territórios ocupados na África e na Ásia entre o final do século XIX e início do século XX tornou-se independente. Ao longo de quarenta anos (entre o início dos anos 1950 e o final dos anos 1980), diversas estratégias foram utilizadas pelos grupos nacionalistas para lograr o reconhecimento de sua soberania. Muitas delas foram aplicadas a outros países e muitas tiveram impacto direto no exterior. Este trabalho visa analisar o contexto norte - africano, por meio do estudo de caso da experiência argelina. Embora com diversos elementos comuns aos demais casos da região do Magreb e à muitas outras ex-colônias, os estudos de caso focados na Argélia destacam a alta participação popular diretamente no processo. Tendo como objetivo analisar a mobilização e a participação dos setores populares nos conflitos por independência, será apresentada uma historiografia da participação popular na Frente de Liberação Nacional, e as circunstâncias da posterior exclusão popular serão avaliadas.In the historical context of the Cold War and after the Second World War, most of the
occupied territories in Africa and Asia in the late nineteenth and early twentieth century
became independent. Over forty years (from the early 1950s and the late 1980s), several
strategies have been used by nationalist groups to achieve the recognition of their
sovereignty. Many of them have been used by many other countries and had a direct impact
abroad. This work aims to analyze the north - African context, through the case study of the
Algerian experience. Albeit with many elements common to other cases of the Maghreb
region and many other former colonies, the case studies focuses on Algeria highlights the
high popular participation directly in the process. Having analyzed the mobilization and
participation of ordinary people in the conflict for independence, a historiography of popular
participation in the National Liberation Front will be presented, and the circumstances of
popular exclusion from this movement will be analyzed
Solution on the Bethe lattice of a hard core athermal gas with two kinds of particles
Athermal lattice gases of particles with first neighbor exclusion have been
studied for a long time as simple models exhibiting a fluid-solid transition.
At low concentration the particles occupy randomly both sublattices, but as the
concentration is increased one of the sublattices is occupied preferentially.
Here we study a mixed lattice gas with excluded volume interactions only in the
grand-canonical formalism with two kinds of particles: small ones, which occupy
a single lattice site and large ones, which occupy one site and its first
neighbors. We solve the model on a Bethe lattice of arbitrary coordination
number . In the parameter space defined by the activities of both particles.
At low values of the activity of small particles () we find a continuous
transition from the fluid to the solid phase as the activity of large particles
() is increased. At higher values of the transition becomes
discontinuous, both regimes are separated by a tricritical point. The critical
line has a negative slope at and displays a minimum before reaching the
tricritical point, so that a reentrant behavior is observed for constant values
of in the region of low density of small particles. The isobaric curves
of the total density of particles as a function of (or ) show a
minimum in the fluid phase.Comment: 18 pages, 5 figures, 1 tabl
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