Search results for " Astronomy and Astrophysics."

showing 10 items of 85 documents

Multiwavelengt analysis of two peculiar High Mass X-Ray Binary systems : 4U 2206+54 and SAX J2103.5+4545 : New insights from Integral

2006

Physics Astronomy and Astrophysics:FÍSICA [UNESCO]UNESCO::FÍSICAPhysics Astrophysics
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Fotometría Strömgren CCD de cúmulos abiertos jóvenes

1998

Physics Astronomy and Astrophysics:MATEMÁTICAS [UNESCO]UNESCO::MATEMÁTICAS
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A weakly random Universe?

2010

The cosmic microwave background (CMB) radiation is characterized by well-established scales, the 2.7 K temperature of the Planckian spectrum and the $10^{-5}$ amplitude of the temperature anisotropy. These features were instrumental in indicating the hot and equilibrium phases of the early history of the Universe and its large scale isotropy, respectively. We now reveal one more intrinsic scale in CMB properties. We introduce a method developed originally by Kolmogorov, that quantifies a degree of randomness (chaos) in a set of numbers, such as measurements of the CMB temperature in some region. Considering CMB as a composition of random and regular signals, we solve the inverse problem of …

PhysicsCosmology and Nongalactic Astrophysics (astro-ph.CO)530 Physicsmedia_common.quotation_subjectCosmic microwave backgroundIsotropyAstrophysics::Instrumentation and Methods for AstrophysicsCosmic background radiationFOS: Physical sciencesAstronomy and AstrophysicsScale (descriptive set theory)General Relativity and Quantum Cosmology (gr-qc)Astrophysics::Cosmology and Extragalactic AstrophysicsAstrophysicsGeneral Relativity and Quantum CosmologyUniverseAmplitude1912 Space and Planetary ScienceSpace and Planetary Science10231 Institute for Computational Science3103 Astronomy and AstrophysicsAnisotropyRandomnessAstrophysics - Cosmology and Nongalactic Astrophysicsmedia_common
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IGR J17451-3022: a dipping and eclipsing low mass X-ray binary

2016

In this paper, we report on the available X-ray data collected by INTEGRAL, Swift, and XMM-Newton during the first outburst of the INTEGRAL transient IGR J17451-3022, discovered in 2014 August. The monitoring observations provided by the JEM-X instruments on-board INTEGRAL and the Swift/XRT showed that the event lasted for about 9 months and that the emission of the source remained soft for the entire period. The source emission is dominated by a thermal component (kT~1.2 keV), most likely produced by an accretion disk. The XMM-Newton observation carried out during the outburst revealed the presence of multiple absorption features in the soft X-ray emission that could be associated to the p…

PhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)010308 nuclear & particles physicsAstrophysics::High Energy Astrophysical PhenomenaX-ray binaryFOS: Physical sciencesX-rays: individuals: IGR J17451-3022Astronomy and AstrophysicsAbsorption columnAstrophysicsAstronomy and AstrophysicOrbital periodX-rays: binarie01 natural sciencesSettore FIS/05 - Astronomia E AstrofisicaAccretion discSpace and Planetary ScienceIonization0103 physical sciencesThermalbinaries; X-rays: individuals: IGR J17451-3022; Astronomy and Astrophysics; Space and Planetary Science [X-rays]Astrophysics - High Energy Astrophysical PhenomenaLow MassAbsorption (electromagnetic radiation)010303 astronomy & astrophysics
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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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Timing of the accreting millisecond pulsar SAX J1748.9-2021 during its 2015 outburst

2016

We report on the timing analysis of the 2015 outburst of the intermittent accreting millisecond X-ray pulsar SAX J1748.9-2021 observed on March 4 by the X-ray satellite XMM-Newton. By phase-connecting the time of arrivals of the observed pulses, we derived the best-fit orbital solution for the 2015 outburst. We investigated the energy pulse profile dependence finding that the pulse fractional amplitude increases with energy while no significant time lags are detected. Moreover, we investigated the previous outbursts from this source, finding previously undetected pulsations in some intervals during the 2010 outburst of the source. Comparing the updated set of orbital parameters, in particul…

PhysicsOrbital elementsHigh Energy Astrophysical Phenomena (astro-ph.HE)Millisecondneutron; X-rays: binaries; Space and Planetary Science; Astronomy and Astrophysics [Accretion accretion disc; Stars]010308 nuclear & particles physicsGravitational waveAstrophysics::High Energy Astrophysical PhenomenaAstronomyLagrangian pointFOS: Physical sciencesAstronomy and AstrophysicsAstrophysicsOrbital periodX-rays: binarie01 natural sciencesStars: neutronAmplitudePulsarSpace and Planetary ScienceMillisecond pulsar0103 physical sciencesAccretion accretion discAstrophysics - High Energy Astrophysical Phenomena010303 astronomy & astrophysics
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The Cryogenic Anticoincidence Detector for ATHENA-XMS

2012

The TES cryogenic detectors, due to their high spectral resolution and imaging capability in the soft X-ray domain, are the reference devices for the next proposed space missions whose aims are to characterize the spectra of faint or diffuse sources. ATHENA is the re-scoped IXO mission, and one of its focal plane instrument is the X-ray Microcalorimeter Spectrometer (XMS) working in the energy range 0.3-10 keV. XMS will be able to achieve the proposed scientific goals if a background lower than 0.02 cts/cm2/s/keV is guaranteed. The studies performed by GEANT4 simulations depict a scenario where it is mandatory to use an active Anti-Coincidence (AC) to reduce the expected background in the L…

PhysicsSpectrometerPhysics::Instrumentation and Detectorsbusiness.industryDetectorAstrophysics::Instrumentation and Methods for AstrophysicsAstrophysicsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSpace explorationSpectral lineLow temperature detectors · Astronomy and astrophysics · Superconductivity · Silicon · TESSettore FIS/05 - Astronomia E AstrofisicaCardinal pointOpticsOrbit (dynamics)General Materials ScienceSpectral resolutionbusinessEnergy (signal processing)Journal of Low Temperature Physics
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The GAPS Programme with HARPS-N at TNG XV. A substellar companion around a K giant star identified with quasi-simultaneous HARPS-N and GIANO measurem…

2017

Context. Identification of planetary companions of giant stars is made difficult because of the astrophysical noise, that may produce radial velocity (RV) variations similar to those induced by a companion. On the other hand any stellar signal is wavelength dependent, while signals due to a companion are achromatic. Aims. Our goal is to determine the origin of the Doppler periodic variations observed in the thick disk K giant star TYC 4282-605-1 by HARPS-N at the Telescopio Nazionale Galileo (TNG) and verify if they can be due to the presence of a substellar companion. Methods. Several methods have been used to exclude the stellar origin of the observed signal including detailed analysis of…

Physicsstars: individual: TYC 4282-605-1010308 nuclear & particles physicsFOS: Physical sciencesAstronomy and AstrophysicsContext (language use)AstrophysicsPlanetary systemLight curveGiant star01 natural sciencesRadial velocityAmplitudeAstrophysics - Solar and Stellar AstrophysicsSpace and Planetary SciencePlanettechniques: radial velocities0103 physical sciencesThick diskinfrared: stars; planetary systems; stars: individual: TYC 4282-605-1; techniques: radial velocities; Astronomy and Astrophysics; Space and Planetary Scienceinfrared: starsplanetary systems010303 astronomy & astrophysicsSolar and Stellar Astrophysics (astro-ph.SR)
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Observation of inclined EeV air showers with the radio detector of the Pierre Auger Observatory

2018

With the Auger Engineering Radio Array (AERA) of the Pierre Auger Observatory, we have observed the radio emission from 561 extensive air showers with zenith angles between 60 and 84. In contrast to air showers with more vertical incidence, these inclined air showers illuminate large ground areas of several km2 with radio signals detectable in the 30 to 80 MHz band. A comparison of the measured radio-signal amplitudes with Monte Carlo simulations of a subset of 50 events for which we reconstruct the energy using the Auger surface detector shows agreement within the uncertainties of the current analysis. As expected for forward-beamed radio emission undergoing no significant absorption or sc…

Physics::Instrumentation and DetectorsAstronomyengineering01 natural sciencesultra high energy cosmic rayAugerHigh Energy Physics - ExperimentHigh Energy Physics - Experiment (hep-ex)cosmic ray experiments; cosmic rays detectors; ultra high energy cosmic rays; Astronomy and Astrophysics[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]Cosmic ray experiments cosmic rays detectors ultra high energy cosmic rays Astronomy and Astrophysics.Absorption (electromagnetic radiation)Physicsradio waveSettore FIS/01 - Fisica SperimentaleDetectorAstrophysics::Instrumentation and Methods for AstrophysicsDETETORESCOSMIC-RAYSAugerobservatoryAmplitudecosmic rays detectorsAstrophysics - Instrumentation and Methods for Astrophysicsnumerical calculations: Monte CarloairAstrophysics::High Energy Astrophysical PhenomenaFOS: Physical sciencescosmic ray experimentultra high energy cosmic rayscascade: electromagneticOptics0103 physical sciencesHigh Energy Physics[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]cosmic rays detector010306 general physicscosmic ray experiments cosmic rays detectors ultra high energy cosmic raysInstrumentation and Methods for Astrophysics (astro-ph.IM)ZenithAstrophysiquePierre Auger Observatoryshowers: atmosphere010308 nuclear & particles physicsbusiness.industryScatteringhep-exdetector: surfacescatteringAstronomy and AstrophysicsAstronomieAir showerExperimental High Energy PhysicsARRAYHigh Energy Physics::Experimentcosmic ray experimentscosmic ray experiments; cosmic rays detectors; ultra high energy cosmic raysEMISSIONbusinessabsorptionastro-ph.IM
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Constraining the neutrino emission of gravitationally lensed Flat-Spectrum Radio Quasars with ANTARES data

2014

This paper proposes to exploit gravitational lensing effects to improve the sensitivity of neutrino telescopes to the intrinsic neutrino emission of distant blazar populations. This strategy is illustrated with a search for cosmic neutrinos in the direction of four distant and gravitationally lensed Flat-Spectrum Radio Quasars. The magnification factor is estimated for each system assuming a singular isothermal profile for the lens. Based on data collected from 2007 to 2012 by the ANTARES neutrino telescope, the strongest constraint is obtained from the lensed quasar B0218+357, providing a limit on the total neutrino luminosity of this source of 1.08×10^46 erg s-1. This limit is about one o…

Point sourceAstronomyAstrophysics::High Energy Astrophysical Phenomenagravitational lensingFOS: Physical sciencesgravitational lensing; neutrino astronomyAstrophysicsAstrophysics::Cosmology and Extragalactic Astrophysics01 natural sciencesLuminosityneutrino astronomyNeutrino0103 physical sciencesSensitivity (control systems)Blazar010303 astronomy & astrophysicsPhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)gravitational lensing; neutrino astronomy; Astronomy and AstrophysicsCOSMIC cancer database010308 nuclear & particles physicshigh energy astrophysical neutrinosAstrophysics::Instrumentation and Methods for AstrophysicsFísicaQuasarAstronomy and AstrophysicsGravitational lensFISICA APLICADANeutrinoMATEMATICA APLICADAAstrophysics - High Energy Astrophysical Phenomena[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]
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