0000000000262508

AUTHOR

Jose Ma. Marti

showing 4 related works from this author

The exact solution of the Riemann problem with non-zero tangential velocities in relativistic hydrodynamics

2000

We have generalised the exact solution of the Riemann problem in special relativistic hydrodynamics for arbitrary tangential flow velocities. The solution is obtained by solving the jump conditions across shocks plus an ordinary differential equation arising from the self-similarity condition along rarefaction waves, in a similar way as in purely normal flow. The dependence of the solution on the tangential velocities is analysed, and the impact of this result on the development of multidimensional relativistic hydrodynamic codes (of Godunov type) is discussed.

PhysicsShock waveDifferential equationMechanical EngineeringMathematical analysisAstrophysics (astro-ph)Zero (complex analysis)Fluid Dynamics (physics.flu-dyn)FOS: Physical sciencesPhysics - Fluid DynamicsCondensed Matter PhysicsAstrophysicssymbols.namesakeExact solutions in general relativityRiemann problemFlow velocityMechanics of MaterialsOrdinary differential equationsymbolsJump
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Physical Parameters in Relativistic Jets from Compact Symmetric Objects

2001

Compact symmetric objects (CSOs) conform a class of sources characterized by high luminosity radio emission located symmetrically on both sides of the active galactic nucleus on linear scales of less than 1 kpc. Given their small size, the hot spots of the jets in CSOs provide a unique laboratory for the study of the physics of relativistic jets and their environment close to the central engine. We present a simple model for the hot spots in CSOs assuming synchrotron emission, minimum energy and ram-pressure equilibrium with the external medium. Further comparison of our model with observational data allows us to constrain the physical parameters in the hot spots and the jets feeding them, …

Synchrotron emissionPhysicsRelativistic beamingActive galactic nucleusAstrophysical jetRadio galaxyAstrophysics::High Energy Astrophysical PhenomenaAstrophysicsLuminosity
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Subparsec Polarimetric Radio Observations of 3C 120: A Close‐up Look at Superluminal Motion

1998

We present two-epoch polarimetric images of the radio galaxy 3C 120 obtained with the Very Long Baseline Array at 22 and 43 GHz. Because of the proximity of 3C 120 (z = 0.033), the 43 GHz observations allow us to observe superluminal motions with the highest resolution achieved to date, 0.07 h-1 pc. Up to ten different superluminal components, with velocities between 2.3 and 5.4 h-1c, can be observed in this active source, with approximately monthly ejections of new components. Polarization is observed in several components and at both frequencies, with peaks in the linearly polarized flux not always coincident with the peaks in total intensity. The orientation of the magnetic field is obse…

PhysicsJet (fluid)Superluminal motionSpace and Planetary ScienceCoincidentRadio galaxyLinear polarizationAstrophysics::High Energy Astrophysical PhenomenaAstronomy and AstrophysicsAstrophysicsPolarization (waves)Very Long Baseline ArrayMagnetic fieldThe Astrophysical Journal
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The nonadiabatic general-relativistic stellar oscillations

1990

We have derived the equations which govern the linear nonadiabatic general-relativistic radial oscillations. The perturbation produces a heat flux that is coupled with the geometry, through the Einstein field equations of a stellar configuration. The classical limit is recovered. The stability conditions are examined by means of a simplified one-zone model.

PhysicsComputational astrophysicsClassical mechanicsHeat fluxSpace and Planetary ScienceGeneral relativityEinstein field equationsPerturbation (astronomy)Astronomy and AstrophysicsAstrophysics::Earth and Planetary AstrophysicsRelativistic quantum chemistryClassical limitStellar pulsationAstrophysics and Space Science
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