14,501 research outputs found
Three-body properties of low-lying Be resonances
We compute the three-body structure of the lowest resonances of Be
considered as two neutrons around an inert Be core. This is an extension
of the bound state calculations of Be into the continuum spectrum. We
investigate the lowest resonances of angular momenta and parities, ,
and . Surprisingly enough, they all are naturally occurring in
the three-body model. We calculate bulk structure dominated by small distance
properties as well as decays determined by the asymptotic large-distance
structure. Both and have two-body Be-neutron d-wave
structure, while has an even mixture of and d-waves. The
corresponding relative neutron-neutron partial waves are distributed among ,
, and d-waves. The branching ratios show different mixtures of one-neutron
emission, three-body direct, and sequential decays. We argue for spin and
parities, , and , to the resonances at 0.89, 2.03, 5.13,
respectively. The computed structures are in agreement with existing reaction
measurements.Comment: To be published in Physical Review
Protoplanetary Disk Turbulence Driven by the Streaming Instability: Non-Linear Saturation and Particle Concentration
We present simulations of the non-linear evolution of streaming instabilities
in protoplanetary disks. The two components of the disk, gas treated with grid
hydrodynamics and solids treated as superparticles, are mutually coupled by
drag forces. We find that the initially laminar equilibrium flow spontaneously
develops into turbulence in our unstratified local model. Marginally coupled
solids (that couple to the gas on a Keplerian time-scale) trigger an upward
cascade to large particle clumps with peak overdensities above 100. The clumps
evolve dynamically by losing material downstream to the radial drift flow while
receiving recycled material from upstream. Smaller, more tightly coupled solids
produce weaker turbulence with more transient overdensities on smaller length
scales. The net inward radial drift is decreased for marginally coupled
particles, whereas the tightly coupled particles migrate faster in the
saturated turbulent state. The turbulent diffusion of solid particles, measured
by their random walk, depends strongly on their stopping time and on the
solids-to-gas ratio of the background state, but diffusion is generally modest,
particularly for tightly coupled solids. Angular momentum transport is too weak
and of the wrong sign to influence stellar accretion. Self-gravity and
collisions will be needed to determine the relevance of particle overdensities
for planetesimal formation.Comment: Accepted for publication in ApJ (17 pages). Movies of the simulations
can be downloaded at http://www.mpia.de/~johansen/research_en.ph
On Hydrodynamic Motions in Dead Zones
We investigate fluid motions near the midplane of vertically stratified
accretion disks with highly resistive midplanes. In such disks, the
magnetorotational instability drives turbulence in thin layers surrounding a
resistive, stable dead zone. The turbulent layers in turn drive motions in the
dead zone. We examine the properties of these motions using three-dimensional,
stratified, local, shearing-box, non-ideal, magnetohydrodynamical simulations.
Although the turbulence in the active zones provides a source of vorticity to
the midplane, no evidence for coherent vortices is found in our simulations. It
appears that this is because of strong vertical oscillations in the dead zone.
By analyzing time series of azimuthally-averaged flow quantities, we identify
an axisymmetric wave mode particular to models with dead zones. This mode is
reduced in amplitude, but not suppressed entirely, by changing the equation of
state from isothermal to ideal. These waves are too low-frequency to affect
sedimentation of dust to the midplane, but may have significance for the
gravitational stability of the resulting midplane dust layers.Comment: 36 pages, 19 figures. ApJ accepte
Stochastics theory of log-periodic patterns
We introduce an analytical model based on birth-death clustering processes to
help understanding the empirical log-periodic corrections to power-law scaling
and the finite-time singularity as reported in several domains including
rupture, earthquakes, world population and financial systems. In our
stochastics theory log-periodicities are a consequence of transient clusters
induced by an entropy-like term that may reflect the amount of cooperative
information carried by the state of a large system of different species. The
clustering completion rates for the system are assumed to be given by a simple
linear death process. The singularity at t_{o} is derived in terms of
birth-death clustering coefficients.Comment: LaTeX, 1 ps figure - To appear J. Phys. A: Math & Ge
Log-periodic self-similarity: an emerging financial law?
A hypothesis that the financial log-periodicity, cascading self-similarity
through various time scales, carries signatures of a law is pursued. It is
shown that the most significant historical financial events can be classified
amazingly well using a single and unique value of the preferred scaling factor
lambda=2, which indicates that its real value should be close to this number.
This applies even to a declining decelerating log-periodic phase. Crucial in
this connection is identification of a "super-bubble" (bubble on bubble)
phenomenon. Identifying a potential "universal" preferred scaling factor, as
undertaken here, may significantly improve the predictive power of the
corresponding methodology. Several more specific related results include
evidence that: (i) the real end of the high technology bubble on the stock
market started (with a decelerating log-periodic draw down) in the begining of
September 2000; (ii) a parallel 2000-2002 decline seen in the Standard & Poor's
500 from the log-periodic perspective is already of the same significance as
the one of the early 1930s and of the late 1970s; (iii) all this points to a
much more serious global crash in around 2025, of course from a level much
higher (at least one order of magnitude) than in 2000.Comment: Talk given by S. Drozdz at International Econophysics Conference,
Bali, August 28-31, 2002; typos correcte
Consequences of agro-biofuel production for greenhouse gas emissions
The objective of the study was to examine the effect on N2O and CH4 emissions when residues from bio-energy production are recycling as organic fertilizer for a maize energy crop. The study showed that the N2O emission associated with the cultivation of the maize crop offset a considerable faction of the fossil CO2, which was avoided by producing the biofuels
Recycling of bioenergy waste-stream materials to soil in organic farming systems
The poster present data on how de-gassted waste-stream material affect soil quality parameters in comparence to raw manure and clover-grass application. The results showed that residues after bio-gasification seems suited for fertilizer usage and not much different from application of raw cattle manure. However, the long-term effects on soil organic matter content needs to be further clarified. Application of clover-grass to the soil caused a significant loss of C and N due to gaseous emissions
Ray optics in flux avalanche propagation in superconducting films
Experimental evidence of wave properties of dendritic flux avalanches in
superconducting films is reported. Using magneto-optical imaging the
propagation of dendrites across boundaries between a bare NbN film and areas
coated by a Cu-layer was visualized, and it was found that the propagation is
refracted in full quantitative agreement with Snell's law. For the studied film
of 170 nm thickness and a 0.9 mkm thick metal layer, the refractive index was
close to n=1.4. The origin of the refraction is believed to be caused by the
dendrites propagating as an electromagnetic shock wave, similar to damped modes
considered previously for normal metals. The analogy is justified by the large
dissipation during the avalanches raising the local temperature significantly.
Additional time-resolved measurements of voltage pulses generated by segments
of the dendrites traversing an electrode confirm the consistency of the adapted
physical picture.Comment: 4 pages, 4 figure
- …