Search results for "Sun: Magnetic fields"

showing 10 items of 22 documents

A new MHD-assisted Stokes inversion technique

2016

©2017 The American Astronomical Society. All rights reserved. We present a new method of Stokes inversion of spectropolarimetric data and evaluate it by taking the example of a Sunrise/IMaX observation. An archive of synthetic Stokes profiles is obtained by the spectral synthesis of state-of-the-art magnetohydrodynamics (MHD) simulations and a realistic degradation to the level of the observed data. The definition of a merit function allows the archive to be searched for the synthetic Stokes profiles that best match the observed profiles. In contrast to traditional Stokes inversion codes, which solve the Unno–Rachkovsky equations for the polarized radiative transfer numerically and fit the …

Magnetohydrodynamics (MHD)010504 meteorology & atmospheric sciencesphotosphere [Sun]FOS: Physical sciencesTechniques: spectroscopicAstrophysicspolarimetric [Techniques]01 natural sciencesspectroscopic [Techniques]0103 physical sciencesMerit functionRadiative transferInitial value problemAstrophysics::Solar and Stellar Astrophysics010303 astronomy & astrophysicsSun: magnetic fieldsSolar and Stellar Astrophysics (astro-ph.SR)0105 earth and related environmental sciencesPhysicsRelaxation processTechniques: polarimetricSun: photosphereAstronomy and AstrophysicsInversion (meteorology)Computational physicsmagnetic fields [Sun]Astrophysics - Solar and Stellar AstrophysicsSpace and Planetary ScienceSolar timeMagnetohydrodynamics
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Contribution of phase-mixing of Alfvén waves to coronal heating in multi-harmonic loop oscillations

2018

This research has received funding from the Science and Technology Facilities Council (UK) through the consolidated grant ST/N000609/1 and the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program ( grant agreement No. 647214). This work is supported by the European Research Council under the SeismoSun Research Project No. 321141 (DJP). This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No 724326). This work used the DiRAC Data Centric system at Durham University, operated by the Institute for Computational Cosmology on behalf o…

Magnetohydrodynamics (MHD)corona [Sun]010504 meteorology & atmospheric sciencesAstrophysics7. Clean energy01 natural sciencesCoronal heatingQB AstronomyRESONANT ABSORPTIONAstrophysics::Solar and Stellar AstrophysicsQASun: magnetic fields010303 astronomy & astrophysicsQCQBSun: helioseismologymedia_commonPhysicsoscillations [Sun]European researchAstrophysics::Instrumentation and Methods for AstrophysicsKINK OSCILLATIONSmagnetic fields [Sun]MHD WAVESAstrophysics - Solar and Stellar AstrophysicsPhysical SciencesPhysics::Space Physicsatmosphere [Sun]INSTABILITYDirac (software)NDASTRACELibrary scienceAstronomy & AstrophysicsComputer Science::Digital Librariesmagnetohydrodynamics (MHD)0103 physical sciencesmedia_common.cataloged_instancewavesQA Mathematicshelioseismology [Sun]Sun: oscillationsEuropean unionPhase mixing0105 earth and related environmental sciencesScience & TechnologySun: coronaSEISMOLOGYAstronomy and AstrophysicsPhysics::History of PhysicsQC PhysicsSpace and Planetary ScienceWavesTRANSVERSE OSCILLATIONSAstronomy & Astrophysics
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Simulating AIA observations of a flux rope ejection

2014

D.H.M. would like to thank STFC, the Leverhulme Trust and the European Commission’s Seventh Framework Programme (FP7/2007-2013) for their financial support. P.P. would like to thank the European Commission’s Seventh Framework Programme (FP7/2007-2013) under grant agreement SWIFF (project 263340, http://www.swiff.eu) and STFC for financial support. These results were obtained in the framework of the projects GOA/2009-009 (KU Leuven), G.0729.11 (FWO-Vlaanderen) and C 90347 (ESA Prodex 9). The research leading to these results has also received funding from the European Commission’s Seventh Framework Programme (FP7/2007-2013) under the grant agreements SOLSPANET (project No. 269299, http:// ww…

Magnetohydrodynamics (MHD)corona [Sun]Sun: coronal mass ejections (CMEs)FOS: Physical sciencesAstrophysicsmagnetohydrodynamics (MHD)7. Clean energyProminencesObservatoryRadiative transferQB AstronomyAstrophysics::Solar and Stellar AstrophysicsQA MathematicsQASun: magnetic fieldsSolar and Stellar Astrophysics (astro-ph.SR)QBPhysicsUV radiation [Sun]Line-of-sightSun: coronaAstronomy and AstrophysicsPlasmaSun: UV radiationCoronacoronal mass ejections (CMEs) [Sun]Magnetic fluxSun: filamentsAstrophysics - Solar and Stellar Astrophysicsmagnetic fields [Sun]13. Climate actionSpace and Planetary ScienceExtreme ultravioletPhysics::Space Physicsfilaments prominences [Sun]Rope
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Transverse Oscillations in Slender Ca II H Fibrils Observed with Sunrise/SuFI

2016

S. Jafarzadeh et. al.

Physics010504 meteorology & atmospheric sciencesCondensed matter physicsoscillations [Sun]imaging spectroscopy [Techniques]Sun: chromosphereFOS: Physical sciencesAstronomy and Astrophysicschromosphere [Sun]Fibril01 natural sciencesTransverse planemagnetic fields [Sun]Astrophysics - Solar and Stellar AstrophysicsSpace and Planetary Science0103 physical sciencesSunriseAstrophysics::Solar and Stellar Astrophysics14. Life underwaterSun: oscillationsTechniques: imaging spectroscopySun: magnetic fields010303 astronomy & astrophysicsSolar and Stellar Astrophysics (astro-ph.SR)0105 earth and related environmental sciences
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Moving Magnetic Features around a Pore

2017

A. J. Kaithakkal et. al.

Physics010504 meteorology & atmospheric sciencesphotosphere [Sun]Polarity (physics)Sun: photosphereFluxFOS: Physical sciencesAstronomy and AstrophysicsAstrophysics01 natural sciencesMagnetic fieldmagnetic fields [Sun]Astrophysics - Solar and Stellar AstrophysicsSpace and Planetary Science0103 physical sciencesSunriseStatistical analysisSun: magnetic fields010303 astronomy & astrophysicsSolar and Stellar Astrophysics (astro-ph.SR)0105 earth and related environmental sciences
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MHD modeling of coronal loops: the transition region throat

2014

The expansion of coronal loops in the transition region may considerably influence the diagnostics of the plasma emission measure. The cross sectional area of the loops is expected to depend on the temperature and pressure, and might be sensitive to the heating rate. The approach here is to study the area response to slow changes in the coronal heating rate, and check the current interpretation in terms of steady heating models. We study the area response with a time-dependent 2D MHD loop model, including the description of the expanding magnetic field, coronal heating and losses by thermal conduction and radiation from optically thin plasma. We run a simulation for a loop 50 Mm long and qu…

PhysicsMagnetohydrodynamics (MHD)Sun: coronaMagnetohydrodynamics (MHD); Sun: corona; Sun: magnetic fields; Sun: transition region; Astronomy and Astrophysics; Space and Planetary ScienceFOS: Physical sciencesAstronomy and AstrophysicsPlasmaAstrophysicsMechanicsCoronal loopRadiationThermal conductionMagnetic fieldLoop (topology)corona Sun: magnetic fields Sun: transition region magnetohydrodynamics (MHD) [Sun]Settore FIS/05 - Astronomia E AstrofisicaAstrophysics - Solar and Stellar AstrophysicsSpace and Planetary ScienceSun: corona Sun: magnetic fields Sun: transition region magnetohydrodynamics (MHD)MagnetohydrodynamicsCurrent (fluid)Sun: transition regionSun: magnetic fieldsSolar and Stellar Astrophysics (astro-ph.SR)
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Photospheric response to an ellerman bomb-like event—an analogy of Sunrise/IMaX observations and MHD simulations

2017

S. Danilovic et. al.

PhysicsPhotosphere010504 meteorology & atmospheric sciencesphotosphere [Sun]Event (relativity)photometric [Techniques]Sun: photosphereAnalogyAstronomyAstronomy and AstrophysicsAstrophysics7. Clean energy01 natural sciencesmagnetic fields [Sun]Sun: activitySpace and Planetary Science0103 physical sciencesSunriseactivity [Sun]MagnetohydrodynamicsSun: magnetic fields010303 astronomy & astrophysicsChromosphereTechniques: photometric0105 earth and related environmental sciences
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Kinematics of Magnetic Bright Features in the Solar Photosphere

2016

S. Jafarzadeh et. al.

PhysicsPhotospherephotosphere [Sun]FOS: Physical sciencesSun: photosphereAstronomy and AstrophysicsSolar photosphereAstrophysicsKinematics01 natural sciencesMethods observationalmagnetic fields [Sun]Methods: observationalAstrophysics - Solar and Stellar AstrophysicsSpace and Planetary Science0103 physical sciencesAstrophysics::Solar and Stellar Astrophysicsobservational [Methods]010306 general physics010303 astronomy & astrophysicsSun: magnetic fieldsSolar and Stellar Astrophysics (astro-ph.SR)
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The polarimetric and helioseismic imager on solar orbiter

2020

This paper describes the Polarimetric and Helioseismic Imager on the Solar Orbiter mission (SO/PHI), the first magnetograph and helioseismology instrument to observe the Sun from outside the Sun-Earth line. It is the key instrument meant to address the top-level science question: How does the solar dynamo work and drive connections between the Sun and the heliosphere? SO/PHI will also play an important role in answering the other top-level science questions of Solar Orbiter, as well as hosting the potential of a rich return in further science. SO/PHI measures the Zeeman effect and the Doppler shift in the FeI 617.3nm spectral line. To this end, the instrument carries out narrow-band imaging…

Solar Telescope010504 meteorology & atmospheric sciencesphotosphere [Sun]FiltegramsHighly elliptical orbitFOS: Physical sciencesAstrophysics01 natural scienceslaw.inventionTelescopeOrbiterPhotospherelaw0103 physical sciencesAstrophysics::Solar and Stellar AstrophysicsHelioseismologySolar dynamo010303 astronomy & astrophysicsSun: magnetic fieldsInstrumentation and Methods for Astrophysics (astro-ph.IM)0105 earth and related environmental sciencesSun: helioseismologyPhysics[PHYS]Physics [physics]PhotosphereEllipsometrypolarimeters [Instrumentation]Spacecraftbusiness.industryAstrophysics::Instrumentation and Methods for AstrophysicsAstronomyinstrumentation: polarimetersSun: photosphereHeliosismologiaAstronomy and AstrophysicsAstrophysics - Astrophysics of Galaxiestechniques: polarimetricmagnetic fields [Sun]Space and Planetary Sciencetechniques: imaging spectroscopyAstrophysics of Galaxies (astro-ph.GA)Physics::Space PhysicsHelioseismologyAstrophysics::Earth and Planetary AstrophysicsbusinessAstrophysics - Instrumentation and Methods for Astrophysics[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]HeliosphereEl·lipsometria
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Contribution of mode coupling and phase-mixing of Alfv\'en waves to coronal heating

2017

This research has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No. 647214) and from the UK Science and Technology Facilities Council. This work used the DiRAC Data Centric system at Durham University, operated by the Institute for Computational Cosmology on behalf of the STFC DiRAC HPC Facility (www.dirac.ac.uk. This equipment was funded by a BIS National E-infrastructure capital grant ST/K00042X/1, STFC capital grant ST/K00087X/1, DiRAC Operations grant ST/K003267/1 and Durham University. Context. Phase-mixing of Alfvén waves in the solar corona has been identified as one possible candid…

Work (thermodynamics)Magnetohydrodynamics (MHD)corona [Sun]010504 meteorology & atmospheric sciencesNDASSun: Magnetic fieldsContext (language use)Astrophysics7. Clean energy01 natural sciences0103 physical sciencesThermalQB AstronomyAstrophysics::Solar and Stellar Astrophysics010303 astronomy & astrophysicsQCQB0105 earth and related environmental sciencesPhysicsSun: Coronabusiness.industrySun: Oscillationsoscillations [Sun]Astronomy and AstrophysicsCoronal loopMechanicsBoundary layerQC Physicsmagnetic fields [Sun]Astrophysics - Solar and Stellar AstrophysicsSpace and Planetary ScienceMode couplingPhysics::Space PhysicsWavesMagnetohydrodynamicsbusinessThermal energy
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