52,637 research outputs found
Sound transmission across a narrow sidebranch array duct muffler at low Mach number
The sound transmission loss across a duct muffler in the form of a linear array of 11 narrow sidebranches is examined experimentally in the present study. The introduction of a low Mach number duct flow deteriorates the broadband acoustical performance of the muffler and strong sound transmission loss dips and sound amplifications are observed at high flow speeds. It is found that a stronger acoustic pressure magnitude inside the sidebranches improves the muffler's performance in the presence of the duct flow. A theoretical analysis using a 2-sidebranch array muffler is conducted and the results indicate the possibility of increasing the sound pressures inside the sidebranches by locating the shorter sidebranch upstream of the longer one. The results of further experiments validate the theoretical deduction. Results also confirm that the muffler with sidebranches arranged in the order of decreasing acoustic impedance magnitude has stronger resilience against aerodynamic disturbance and gives better performance when the upstream excitation level and the duct flow speed are fixed
Avalanches and Correlations in Driven Interface Depinning
We study the critical behavior of a driven interface in a medium with random
pinning forces by analyzing spatial and temporal correlations in a lattice
model recently proposed by Sneppen [Phys. Rev. Lett. {\bf 69}, 3539 (1992)].
The static and dynamic behavior of the model is related to the properties of
directed percolation. We show that, due to the interplay of local and global
growth rules, the usual method of dynamical scaling has to be modified. We
separate the local from the global part of the dynamics by defining a train of
causal growth events, or "avalanche", which can be ascribed a well-defined
dynamical exponent where is the
roughness exponent of the interface. We observe that the avalanche size
distribution obeys a power-law decay with an exponent .Comment: 7 pages, (5 figures available upon request), REVTeX, RUB-TP3-93-0
Multi-wavelength emissions from the millisecond pulsar binary PSR J1023+0038 during an accretion active state
Recent observations strongly suggest that the millisecond pulsar binary PSR
J1023+0038 has developed an accretion disk since 2013 June. We present a
multi-wavelength analysis of PSR J1023+0038, which reveals that 1) its
gamma-rays suddenly brightened within a few days in June/July 2013 and has
remained at a high gamma-ray state for several months; 2) both UV and X-ray
fluxes have increased by roughly an order of magnitude, and 3) the spectral
energy distribution has changed significantly after the gamma-ray sudden flux
change. Time variabilities associated with UV and X-rays are on the order of
100-500 seconds and 50-100 seconds, respectively. Our model suggests that a
newly formed accretion disk due to the sudden increase of the stellar wind
could explain the changes of all these observed features. The increase of UV is
emitted from the disk, and a new component in gamma-rays is produced by inverse
Compton scattering between the new UV component and pulsar wind. The increase
of X-rays results from the enhancement of injection pulsar wind energy into the
intra-binary shock due to the increase of the stellar wind. We also predict
that the radio pulses may be blocked by the evaporated winds from the disk and
the pulsar is still powered by rotation.Comment: 8 pages, 3 figures; accepted for publication in Ap
Thin Films of 3He -- Implications on the Identification of 3 He -A
Recently the identification of 3He-A with the axial state has been
questioned. It is suggested that the A-phase can actually be in the axiplanar
state. We point out in the present paper that experiments in a film geometry
may be useful to distinguish the above two possibilities. In particular a
second order phase transition between an axial and an axiplanar state would
occur as a function of thickness or temperature.Comment: 3 pages, no figures latex- revtex aps accepted by J. of Low
Temperature Physic
Multi-Modes Phonon Softening in Two-Dimensional Electron-Lattice System
Phonon dispersion in a two-dimensional electron-lattice system described by a
two-dimensional square-lattice version of Su-Schrieffer-Heeger's model and
having the half-filled electronic band is studied theoretically at temperatures
higher than the mean field critical temperature of the Peierls transition. When
the temperature is lowered from the higher region down to the critical one,
softening of multi phonon modes which have wave vectors equal to the nesting
vector \vv{Q}=(\pi/a,\pi/a) with the lattice constant or parallel to
\vv{Q} is observed. Although both of the transverse and longitudinal modes
are softened at the critical temperature in the case of the wave vector equal
to \vv{Q}, only the transverse modes are softened for other wave vectors
parallel to \vv{Q}. This behavior is consistent with the Peierls distortions
at lower temperatures.Comment: 10 pages, 5 Figure
Anisotropic Interface Depinning - Numerical Results
We study numerically a stochastic differential equation describing an
interface driven along the hard direction of an anisotropic random medium. The
interface is subject to a homogeneous driving force, random pinning forces and
the surface tension. In addition, a nonlinear term due to the anisotropy of the
medium is included. The critical exponents characterizing the depinning
transition are determined numerically for a one-dimensional interface. The
results are the same, within errors, as those of the ``Directed Percolation
Depinning'' (DPD) model. We therefore expect that the critical exponents of the
stochastic differential equation are exactly given by the exponents obtained by
a mapping of the DPD model to directed percolation. We find that a moving
interface near the depinning transition is not self-affine and shows a behavior
similar to the DPD model.Comment: 9 pages, 13 figures, REVTe
Singularities and Avalanches in Interface Growth with Quenched Disorder
A simple model for an interface moving in a disordered medium is presented.
The model exhibits a transition between the two universality classes of
interface growth phenomena. Using this model, it is shown that the application
of constraints to the local slopes of the interface produces avalanches of
growth, that become relevant in the vicinity of the depinning transition. The
study of these avalanches reveals a singular behavior that explains a recently
observed singularity in the equation of motion of the interface.Comment: 4 pages. REVTEX. 4 figs available on request from [email protected]
Origin of the roughness exponent in elastic strings at the depinning threshold
Within a recently developed framework of dynamical Monte Carlo algorithms, we
compute the roughness exponent of driven elastic strings at the
depinning threshold in 1+1 dimensions for different functional forms of the
(short-range) elastic energy. A purely harmonic elastic energy leads to an
unphysical value for . We include supplementary terms in the elastic
energy of at least quartic order in the local extension. We then find a
roughness exponent of , which coincides with the one
obtained for different cellular automaton models of directed percolation
depinning. The quartic term translates into a nonlinear piece which changes the
roughness exponent in the corresponding continuum equation of motion. We
discuss the implications of our analysis for higher-dimensional elastic
manifolds in disordered media.Comment: 4 pages, 2 figure
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