36,739 research outputs found
Dynamical and radiative properties of astrophysical supersonic jets I. Cocoon morphologies
We present the results of a numerical analysis of the propagation and
interaction of a supersonic jet with the external medium. We discuss the motion
of the head of the jet into the ambient in different physical conditions,
carrying out calculations with different Mach numbers and density ratios of the
jet to the exteriors. Performing the calculation in a reference frame in motion
with the jet head, we can follow in detail its long term dynamics. This
numerical scheme allows us also to study the morphology of the cocoon for
different physical parameters. We find that the propagation velocity of the jet
head into the ambient medium strongly influences the morphology of the cocoon,
and this result can be relevant in connection to the origin and structure of
lobes in extragalactic radiosources.Comment: 14 pages, TeX. Accepted for A&
Speedy motions of a body immersed in an infinitely extended medium
We study the motion of a classical point body of mass M, moving under the
action of a constant force of intensity E and immersed in a Vlasov fluid of
free particles, interacting with the body via a bounded short range potential
Psi. We prove that if its initial velocity is large enough then the body
escapes to infinity increasing its speed without any bound "runaway effect".
Moreover, the body asymptotically reaches a uniformly accelerated motion with
acceleration E/M. We then discuss at a heuristic level the case in which Psi(r)
diverges at short distances like g r^{-a}, g,a>0, by showing that the runaway
effect still occurs if a<2.Comment: 15 page
A Symmetric Approach to the Massive Nonlinear Sigma Model
In the present paper we extend to the massive case the procedure of
divergences subtraction, previously introduced for the massless nonlinear sigma
model (D=4). Perturbative expansion in the number of loops is successfully
constructed. The resulting theory depends on the Spontaneous Symmetry Breaking
parameter v, on the mass m and on the radiative correction parameter \Lambda.
Fermions are not considered in the present work. SU(2) X SU(2) is the group
used.Comment: 20 page
Distributed bounded-error state estimation for partitioned systems based on practical robust positive invariance
We propose a partition-based state estimator for linear discrete-time systems
composed by coupled subsystems affected by bounded disturbances. The
architecture is distributed in the sense that each subsystem is equipped with a
local state estimator that exploits suitable pieces of information from parent
subsystems. Moreover, differently from methods based on moving horizon
estimation, our approach does not require the on-line solution to optimization
problems. Our state-estimation scheme, that is based on the notion of practical
robust positive invariance developed in Rakovic 2011, also guarantees
satisfaction of constraints on local estimation errors and it can be updated
with a limited computational effort when subsystems are added or removed
The SU(2) X U(1) Electroweak Model based on the Nonlinearly Realized Gauge Group
The electroweak model is formulated on the nonlinearly realized gauge group
SU(2) X U(1). This implies that in perturbation theory no Higgs field is
present. The paper provides the effective action at the tree level, the Slavnov
Taylor identity (necessary for the proof of unitarity), the local functional
equation (used for the control of the amplitudes involving the Goldstone
bosons) and the subtraction procedure (nonstandard, since the theory is not
power-counting renormalizable). Particular attention is devoted to the number
of independent parameters relevant for the vector mesons; in fact there is the
possibility of introducing two mass parameters. With this choice the relation
between the ratio of the intermediate vector meson masses and the Weinberg
angle depends on an extra free parameter. We briefly outline a method for
dealing with \gamma_5 in dimensional regularization. The model is formulated in
the Landau gauge for sake of simplicity and conciseness: the QED Ward identity
has a simple and intriguing form.Comment: 19 pages, final version published by Int. J. Mod. Phys. A, some typos
corrected in eqs.(1) and (41). The errors have a pure editing origin.
Therefore they do not affect the content of the pape
A Feature Tracking velocimetry technique applied to inclined negatively buoyant jets
We have applied a Feature Tracking Velocimetry (FTV) technique to measure displacements of particles on
inclined negatively buoyant jets (INBJs), issuing from a circular sharp-edged orifice, in order to investigate, among the
others, the symmetry properties of the velocity field on this phenomenon. Feature Tracking Velocimetry is less sensitive
to the appearance and disappearance of particles and to high velocity gradients than classical Particle Image
Velocimetry (PIV). The basic idea of Feature Tracking Velocimetry is to compare windows only where the motion
detection may be successful, that is where there are high luminosity gradients. The Feature Tracking Velocimetry
algorithm presented here is suitable in presence of different seeding densities, where other techniques produce
significant errors, due to the non-homogeneous seeding at the boundary of a flow. The Feature Tracking Velocimetry
algorithm has been tested on laboratory experiments regarding simple jets (SJs) and inclined negatively buoyant jets
released from a sharp-edged orifice. We present here velocity statistics, from the first to the fourth order, to study,
among the others, the differences between simple jets and inclined negatively buoyant jets, and to investigate how the
increase in buoyancy affects the inclined negatively buoyant jet behavior. We remark that, to the best of authors’
knowledge, this is the first attempt to investigate velocity statistics of an order higher than the second on Inclined
Negatively Buoyant Jets. Among the others quantities, the mean streamwise velocity decay and the integral Turbulent
Kinetic Energy have been measured and analyzed, both along the jet axis and in the upper and lower region of the
simple jets and inclined negatively buoyant jets, as well as the streamwise and spanwise velocity skewness and kurtosis
evolution along the axis. Results show the role of buoyancy in modifying the inclined negatively buoyant jet features;
moreover, it is highlighted that the asymmetry of inclined negatively buoyant jets cannot be considered only a far field
feature of this phenomenon, as it arises very close to the release point
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