6,521 research outputs found
Tracing planet-induced structures in circumstellar disks using molecular lines
Circumstellar disks are considered to be the birthplace of planets. Specific
structures like spiral arms, gaps, and cavities are characteristic indicators
of planet-disk interaction. Investigating these structures can provide insights
into the growth of protoplanets and the physical properties of the disk. We
investigate the feasibility of using molecular lines to trace planet-induced
structures in circumstellar disks. Based on 3D hydrodynamic simulations of
planet-disk interactions, we perform self-consistent temperature calculations
and produce N-LTE molecular line velocity-channel maps and spectra of these
disks using our new N-LTE line radiative transfer code Mol3D. Subsequently, we
simulate ALMA observations using the CASA simulator. We consider two nearly
face-on inclinations, 5 disk masses, 7 disk radii, and 2 different typical
pre-main-sequence host stars (T Tauri, Herbig Ae). We calculate up to 141
individual velocity-channel maps for five molecules/isotopoloques in a total of
32 rotational transitions to investigate the frequency dependence of the
structures indicated above. We find that the majority of protoplanetary disks
in our parameter space could be detected in the molecular lines considered.
However, unlike the continuum case, gap detection is not straightforward in
lines. For example, gaps are not seen in symmetric rings but are masked by the
pattern caused by the global (Keplerian) velocity field. We identify specific
regions in the velocity-channel maps that are characteristic of planet-induced
structures. Simulations of high angular resolution molecular line observations
demonstrate the potential of ALMA to provide complementary information about
the planet-disk interaction as compared to continuum observations. In
particular, the detection of planet-induced gaps is possible under certain
conditions.(abridged)Comment: 19 pages, 19 figures, accepted for publication in A&
The Voltage Sensor of Excitation-Contraction Coupling in Skeletal Muscle. Ion Dependence and Selectivity
Manifestations of excitation-contraction (EC) coupling of skeletal muscle were studied in the presence of metal ions of the alkaline and alkaline-earth groups in the extracellular medium. Single cut fibers of frog skeletal muscle were voltage clamped in a double Vaseline gap apparatus, and intramembrane charge movement and myoplasmic Ca2+ transients were simultaneously measured. In metal-free extracellular media both charge movement of the charge 1 type and Ca transients were suppressed. Under metal-free conditions the nonlinear charge distribution was the same in depolarized (holding potential of 0 mV) and normally polarized fibers (holding potentials between -80 and -90 mV). The manifestations of EC coupling recovered when ions of groups Ia and IIa of the periodic table were included in the extracellular solution; the extent of recovery depended on the ion species. These results are consistent with the idea that the voltage sensor of EC coupling has a binding site for metal cations--the priming site--that is essential for function. A state model of the voltage sensor in which metal ligands bind preferentially to the priming site when the sensor is in noninactivated states accounts for the results. This theory was used to derive the relative affinities of the various ions for the priming site from the magnitude of the EC coupling response. The selectivity sequence thus constructed is: Ca greater than Sr greater than Mg greater than Ba for group IIa cations and Li greater than Na greater than K greater than Rb greater than Cs for group Ia. Ca2+, the most effective of all ions tested, was 1,500-fold more effective than Na+. This selectivity sequence is qualitatively and quantitatively similar to that of the intrapore binding sites of the L-type cardiac Ca channel. This provides further evidence of molecular similarity between the voltage sensor and Ca channels
Tracing large-scale structures in circumstellar disks with ALMA
Planets are supposed to form in circumstellar disks. The gravitational
potential of a planet perturbs the disk and leads to characteristic structures,
i.e. spiral waves and gaps, in the disk's density profile. We perform a
large-scale parameter study of the observability of these planet-induced
structures in circumstellar disks with ALMA. On the basis of HD and MHD
simulations, we calculated the disk temperature structure and (sub)mm images of
these systems. These were used to derive simulated ALMA images. Because
appropriate objects are frequent in Taurus, we focused on a distance of 140pc
and a declination of 20{\deg}. The explored range of star-disk-planet
configurations consists of 6 HD simulations (including magnetic fields and
different planet masses), 9 disk sizes, 15 total disk masses, 6 different
central stars, and two different grain size distributions. On almost all scales
and in particular down to a scale of a few AU, ALMA is able to trace disk
structures induced by planet-disk interaction or by the influence of magnetic
fields on the wavelength range between 0.4 and 2.0mm. In most cases, the
optimum angular resolution is limited by the sensitivity. However, within the
range of typical masses of protoplanetary disks (0.1-0.001Msun) the disk mass
has a minor impact on the observability. It is possible to resolve disks down
to 2.67e-6Msun and trace gaps induced by a planet with M_p/M_s = 0.001 in disks
with 2.67e-4Msun with a signal-to-noise ratio greater than three. The central
star has a major impact on the observability of gaps, as well as the considered
maximum grainsize of the dust in the disk. In general, it is more likely to
trace planet-induced gaps in our MHD models, because gaps are wider in the
presence of magnetic fields. We also find that zonal flows resulting from MRI
create gap-like structures in the disk's re-emission radiation, which are
observable with ALMA.Comment: 17 pages, 21 figure
The diffuse Nitsche method: Dirichlet constraints on phase-field boundaries
We explore diffuse formulations of Nitsche's method for consistently imposing Dirichlet boundary conditions on phase-field approximations of sharp domains. Leveraging the properties of the phase-field gradient, we derive the variational formulation of the diffuse Nitsche method by transferring all integrals associated with the Dirichlet boundary from a geometrically sharp surface format in the standard Nitsche method to a geometrically diffuse volumetric format. We also derive conditions for the stability of the discrete system and formulate a diffuse local eigenvalue problem, from which the stabilization parameter can be estimated automatically in each element. We advertise metastable phase-field solutions of the Allen-Cahn problem for transferring complex imaging data into diffuse geometric models. In particular, we discuss the use of mixed meshes, that is, an adaptively refined mesh for the phase-field in the diffuse boundary region and a uniform mesh for the representation of the physics-based solution fields. We illustrate accuracy and convergence properties of the diffuse Nitsche method and demonstrate its advantages over diffuse penalty-type methods. In the context of imaging based analysis, we show that the diffuse Nitsche method achieves the same accuracy as the standard Nitsche method with sharp surfaces, if the inherent length scales, i.e., the interface width of the phase-field, the voxel spacing and the mesh size, are properly related. We demonstrate the flexibility of the new method by analyzing stresses in a human vertebral body
Deslizamiento de cobertura en el Sinclinorio Mesocenozoico de Sevaruyo-Rio Mulato (Altiplano central de Bolivia)
Una cuenca cenozoica muy subsidente caracteriza al sector septentrional del Altiplano de Bolivia, mientras que otras con menor subsidencia, ocupan el sector meridional. En la region central del Altiplano, un potente conjunto de capas meso-cenozoicas era considerado como el relleno de la "Cuenca de Sevaruyo-Rio Mulato", deformado en un amplio sinclinorio al oeste de la Cordillera Oriental. Interpretamos este conjunt plegado como el resultado de un deslizamiento plurikilometrico de la cobertura de Cretacico superior-Paleogeno, la cual resbala desde el margen occidental de la Cordillera Oriental (collapse). El deslizamiento y el plegamiento de esta cobertura se realizan mediante un despegue en la capas saliferas de Turoniano (Fm. Aroifilla). El transporte, hacia el oeste, es sincronico de la sedimentacion de las capas continentales del Paleogeno y pp Mioceno. A fines del Oligoceno, las discordancias angulares y las intercalaciones de conglomerados con clastos de Cretacico y de Palezoico marcan una etapa dentro de un proceso continuo de deformacion, erosion y sedimentacion durante el cual un hundimiento progresivo, al oeste, esta acompa¤ado de un levantamiento al este. El basculamiento de un bloque plurikilometrico de la corteza puede explicar, a la vez: 1) el deslizamiento hacia el oeste de la cobertura de un dominio positovo oriental, 2) la fuerte disimetria de la "Cuenca" cenozoica occidental, y 3) el relleno progresivo de dicho dominio subsidente porlos productos de la erosion de los sectores elevados. El proceso esta marcado por la sucesiva erosion y resedimentacion de las capas rojas del Paleoceno-Eoceno, luego del Cretacico y, despues, del Paleozoico. La deformacion gravitacional, la erosion y la subsidencia disimetrica resultarian de la evolucion geodinamica del antepais de un importante cabalgamiento del "Macizo Precambrico de Arequipa". Progresando del oeste hacia el este durante el Paleogeno, el bloque Precambrico de Arequipa se superpone y sobrecarga al margen occidental de un bloque de Precambrico y Hercinico mas oriental, el cual esta, a su vez, empujado, flexurado y basculado. Dicho bloque oriental, en relevo (piggyback sequence), forma otro gran cabalgamiento cortical hacia el este. El basculamiento de este bloque constituye el origen del despegue y del deslizamiento de la cobertura de Cretacico terminal-Paleogeno, que preceden la erosion del sustrato Paleozoico-Cretacico inferior en el sector oriental elevado, fuente principal de los aportes en la potente sedimentacion observada en el dominio occidental en proceso de hundimiento. (Résumé d'auteur)
Entrando en cintura: implicaciones de política económica sobre la sostenibilidad de la deuda pública en la zona euro.
En este artículo se muestra el marco teórico implícito en la restricción presupuestaria intertemporal del gobierno. A partir de este, se realizan una serie de simulaciones sobre el problema de sostenibilidad de la deuda pública, y los sacrificios fiscales necesarios para juzgar el actual nivel de endeudamiento sostenible en algunos países de la zona Euro. En particular, Grecia, Portugal, Italia y España deben generar un superávit primario de 44.1%, 10.5%, 6.8% y 4.5% del PIB, respectivamente para mantener sus actuales niveles de endeudamiento. La situación de Reino unido, Alemania y Francia es diferente, puesto que pueden presentar déficits debido a la relación entre crecimiento esperado y tasa de interés
Estimation of genetic parameters for subclinical mastitis using a threshold model in first parity dairy cows under pasture-based systems of Los Ríos Region in Chile
Somatic cell count (SCC) is an indirect measurement to estimate mammary gland health status. This trait provides information regarding the severity of the mammary tissue inflammation in each quarter. Milk samples coming from the farm milk storage vat containing 100,000 to 200,000 cell/mL are considered suspicious, while SCC over 200,000 cell/mL is an indication of subclinical mastitis. Chilean dairy processors penalise farmers monetarily when their bulk tank samples reach levels of 300,000 cell/mL SCC. The objective of this study was to quantify the additive genetic component of the liability of cows to reach the 300,000 cell/mL threshold. A data set containing the highest SCC test-day record of 10,528 first lactation cows from 15 commercial dairy farms of Los Ríos Region in southern Chile was analysed. The unknown continuous underlying susceptibility of each cow to reach the 300,000 SCC threshold was modelled as a function of a contemporary group formed by the herd, year, and calving season, the regression coefficient of the unknown underlying susceptibility value of a cow on her daily milk yield (MY) and the additive animal genetic effect. Bayesian inference and Gibbs sampling were used to estimate additive and residual variances. The average daily MY and SCC were 17.84±5.25 kg and 125,327±236,297 cell/mL, respectively. The estimated heritability varied from 0.03 to 0.22 and the average was 0.10±0.03. It is concluded that the genetic variability for the susceptibility to reach the 300,000 SCC threshold could be exploited to improve resistance to subclinical mastitis
Boundedness of Pseudodifferential Operators on Banach Function Spaces
We show that if the Hardy-Littlewood maximal operator is bounded on a
separable Banach function space and on its associate space
, then a pseudodifferential operator
is bounded on whenever the symbol belongs to the
H\"ormander class with ,
or to the the Miyachi class
with ,
. This result is applied to the case of
variable Lebesgue spaces .Comment: To appear in a special volume of Operator Theory: Advances and
Applications dedicated to Ant\'onio Ferreira dos Santo
Modelling and Validation of a Gas-Solid Fluidized Bed using Advanced Measurement Techniques
With a Euler-two-phase (E2P) approach, through computational fluid dynamics (CFD) techniques, a mathematical model for the prediction of the local hydrodynamic behavior of a gas-solid fluidized bed was implemented. Simulations are conducted for a fluidized bed of 0.14 m internal diameter packed with Gerdart B glass beads particles, with an average diameter of 365 μm, at dimensionless inlet velocities ranging from (Formula presented.). The implemented model considers the multiphase and multiscale interactions through the inclusion of three sub-models, which allows the model to have a broad range of applicability. Predictions were compared against experimental measurements reported on previous contributions for validation purposes. The experimental study was conducted by implementing advanced measurement techniques, such as a differential pressure transducer, and an optical fibre probe for simultaneous measurement of solids holdup and velocity, developed at the Multiphase Flow and Reactors Engineering and Applications Laboratory (mFReal). Local radial solids holdup, solids velocity, and pressure drop profiles were experimentally determined. Results show that the implemented model possesses a high predictive quality, predicting pressure drops with an average absolute relative error (AARE) between 8.6%–11.3%; solids holdup with a root mean squared deviation (RMSD) under 5%; and solids velocity with a RMSD under 22%
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