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SYMBA: An end-to-end VLBI synthetic data generation pipeline : Simulating Event Horizon Telescope observations of M 87

Roelofs, F. ; Janssen, M. ; Natarajan, I. ; [et al.]

EDP Sciences ; 2020

In: Astronomy & Astrophysics Vol. 636 ( 2020-04), p. A5-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 636 ( 2020-04), p. A5-

Abstract: Context. Realistic synthetic observations of theoretical source models are essential for our understanding of real observational data. In using synthetic data, one can verify the extent to which source parameters can be recovered and evaluate how various data corruption effects can be calibrated. These studies are the most important when proposing observations of new sources, in the characterization of the capabilities of new or upgraded instruments, and when verifying model-based theoretical predictions in a direct comparison with observational data. Aims. We present the SYnthetic Measurement creator for long Baseline Arrays ( SYMBA ), a novel synthetic data generation pipeline for Very Long Baseline Interferometry (VLBI) observations. SYMBA takes into account several realistic atmospheric, instrumental, and calibration effects. Methods. We used SYMBA to create synthetic observations for the Event Horizon Telescope (EHT), a millimetre VLBI array, which has recently captured the first image of a black hole shadow. After testing SYMBA with simple source and corruption models, we study the importance of including all corruption and calibration effects, compared to the addition of thermal noise only. Using synthetic data based on two example general relativistic magnetohydrodynamics (GRMHD) model images of M 87, we performed case studies to assess the image quality that can be obtained with the current and future EHT array for different weather conditions. Results. Our synthetic observations show that the effects of atmospheric and instrumental corruptions on the measured visibilities are significant. Despite these effects, we demonstrate how the overall structure of our GRMHD source models can be recovered robustly with the EHT2017 array after performing calibration steps, which include fringe fitting, a priori amplitude and network calibration, and self-calibration. With the planned addition of new stations to the EHT array in the coming years, images could be reconstructed with higher angular resolution and dynamic range. In our case study, these improvements allowed for a distinction between a thermal and a non-thermal GRMHD model based on salient features in reconstructed images.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/201936622

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2020

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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Event Horizon Telescope imaging of the archetypal blazar 3C 279 at an extreme 20 microarcsecond resolution

Kim, Jae-Young ; Krichbaum, Thomas P. ; Broderick, Avery E. ; [et al.]

EDP Sciences ; 2020

In: Astronomy & Astrophysics Vol. 640 ( 2020-08), p. A69-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 640 ( 2020-08), p. A69-

Abstract: 3C 279 is an archetypal blazar with a prominent radio jet that show broadband flux density variability across the entire electromagnetic spectrum. We use an ultra-high angular resolution technique – global Very Long Baseline Interferometry (VLBI) at 1.3 mm (230 GHz) – to resolve the innermost jet of 3C 279 in order to study its fine-scale morphology close to the jet base where highly variable γ -ray emission is thought to originate, according to various models. The source was observed during four days in April 2017 with the Event Horizon Telescope at 230 GHz, including the phased Atacama Large Millimeter/submillimeter Array (ALMA), at an angular resolution of ∼20 μ as (at a redshift of z = 0.536 this corresponds to ∼0.13 pc ∼ 1700 Schwarzschild radii with a black hole mass M BH = 8 × 10 8 M ⊙ ). Imaging and model-fitting techniques were applied to the data to parameterize the fine-scale source structure and its variation. We find a multicomponent inner jet morphology with the northernmost component elongated perpendicular to the direction of the jet, as imaged at longer wavelengths. The elongated nuclear structure is consistent on all four observing days and across different imaging methods and model-fitting techniques, and therefore appears robust. Owing to its compactness and brightness, we associate the northern nuclear structure as the VLBI “core”. This morphology can be interpreted as either a broad resolved jet base or a spatially bent jet. We also find significant day-to-day variations in the closure phases, which appear most pronounced on the triangles with the longest baselines. Our analysis shows that this variation is related to a systematic change of the source structure. Two inner jet components move non-radially at apparent speeds of ∼15 c and ∼20 c (∼1.3 and ∼1.7 μ as day −1 , respectively), which more strongly supports the scenario of traveling shocks or instabilities in a bent, possibly rotating jet. The observed apparent speeds are also coincident with the 3C 279 large-scale jet kinematics observed at longer (cm) wavelengths, suggesting no significant jet acceleration between the 1.3 mm core and the outer jet. The intrinsic brightness temperature of the jet components are ≲10 10 K, a magnitude or more lower than typical values seen at ≥7 mm wavelengths. The low brightness temperature and morphological complexity suggest that the core region of 3C 279 becomes optically thin at short (mm) wavelengths.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/202037493

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2020

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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VLBA imaging of the 3 mm SiO maser emission in the disk-wind from the massive protostellar system Orion Source I

Issaoun, S. ; Goddi, C. ; Matthews, L. D. ; [et al.]

EDP Sciences ; 2017

In: Astronomy & Astrophysics Vol. 606 ( 2017-10), p. A126-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 606 ( 2017-10), p. A126-

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/201731548

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2017

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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Multiwavelength follow-up of a rare IceCube neutrino multiplet

IceCube ; Aartsen, M. G. ; Ackermann, M. ; [et al.]

EDP Sciences ; 2017

In: Astronomy & Astrophysics Vol. 607 ( 2017-11), p. A115-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 607 ( 2017-11), p. A115-

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/201730620

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2017

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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The European Solar Telescope

Quintero Noda, C. ; Schlichenmaier, R. ; Bellot Rubio, L. R. ; [et al.]

EDP Sciences ; 2022

In: Astronomy & Astrophysics Vol. 666 ( 2022-10), p. A21-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 666 ( 2022-10), p. A21-

Abstract: The European Solar Telescope (EST) is a project aimed at studying the magnetic connectivity of the solar atmosphere, from the deep photosphere to the upper chromosphere. Its design combines the knowledge and expertise gathered by the European solar physics community during the construction and operation of state-of-the-art solar telescopes operating in visible and near-infrared wavelengths: the Swedish 1m Solar Telescope, the German Vacuum Tower Telescope and GREGOR, the French Télescope Héliographique pour l’Étude du Magnétisme et des Instabilités Solaires, and the Dutch Open Telescope. With its 4.2 m primary mirror and an open configuration, EST will become the most powerful European ground-based facility to study the Sun in the coming decades in the visible and near-infrared bands. EST uses the most innovative technological advances: the first adaptive secondary mirror ever used in a solar telescope, a complex multi-conjugate adaptive optics with deformable mirrors that form part of the optical design in a natural way, a polarimetrically compensated telescope design that eliminates the complex temporal variation and wavelength dependence of the telescope Mueller matrix, and an instrument suite containing several (etalon-based) tunable imaging spectropolarimeters and several integral field unit spectropolarimeters. This publication summarises some fundamental science questions that can be addressed with the telescope, together with a complete description of its major subsystems.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/202243867

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2022

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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The Solar Orbiter EUI instrument: The Extreme Ultraviolet Imager

Rochus, P. ; Auchère, F. ; Berghmans, D. ; [et al.]

EDP Sciences ; 2020

In: Astronomy & Astrophysics Vol. 642 ( 2020-10), p. A8-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 642 ( 2020-10), p. A8-

Abstract: Context. The Extreme Ultraviolet Imager (EUI) is part of the remote sensing instrument package of the ESA/NASA Solar Orbiter mission that will explore the inner heliosphere and observe the Sun from vantage points close to the Sun and out of the ecliptic. Solar Orbiter will advance the “connection science” between solar activity and the heliosphere. Aims. With EUI we aim to improve our understanding of the structure and dynamics of the solar atmosphere, globally as well as at high resolution, and from high solar latitude perspectives. Methods. The EUI consists of three telescopes, the Full Sun Imager and two High Resolution Imagers, which are optimised to image in Lyman- α and EUV (17.4 nm, 30.4 nm) to provide a coverage from chromosphere up to corona. The EUI is designed to cope with the strong constraints imposed by the Solar Orbiter mission characteristics. Limited telemetry availability is compensated by state-of-the-art image compression, onboard image processing, and event selection. The imposed power limitations and potentially harsh radiation environment necessitate the use of novel CMOS sensors. As the unobstructed field of view of the telescopes needs to protrude through the spacecraft’s heat shield, the apertures have been kept as small as possible, without compromising optical performance. This led to a systematic effort to optimise the throughput of every optical element and the reduction of noise levels in the sensor. Results. In this paper we review the design of the two elements of the EUI instrument: the Optical Bench System and the Common Electronic Box. Particular attention is also given to the onboard software, the intended operations, the ground software, and the foreseen data products. Conclusions. The EUI will bring unique science opportunities thanks to its specific design, its viewpoint, and to the planned synergies with the other Solar Orbiter instruments. In particular, we highlight science opportunities brought by the out-of-ecliptic vantage point of the solar poles, the high-resolution imaging of the high chromosphere and corona, and the connection to the outer corona as observed by coronagraphs.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/201936663

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2020

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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The Solar Orbiter EUI instrument: The Extreme Ultraviolet Imager (Corrigendum)

Rochus, P. ; Auchère, F. ; Berghmans, D. ; [et al.]

EDP Sciences ; 2022

In: Astronomy & Astrophysics Vol. 665 ( 2022-9), p. C1-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 665 ( 2022-9), p. C1-

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/201936663e

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2022

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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Dust polarized emission observations of NGC 6334 : BISTRO reveals the details of the complex but organized magnetic field structure of the high-mass star-forming hub-filament network

Arzoumanian, D. ; Furuya, R. S. ; Hasegawa, T. ; [et al.]

EDP Sciences ; 2021

In: Astronomy & Astrophysics Vol. 647 ( 2021-3), p. A78-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 647 ( 2021-3), p. A78-

Abstract: Context. Molecular filaments and hubs have received special attention recently thanks to new studies showing their key role in star formation. While the (column) density and velocity structures of both filaments and hubs have been carefully studied, their magnetic field (B-field) properties have yet to be characterized. Consequently, the role of B-fields in the formation and evolution of hub-filament systems is not well constrained. Aims. We aim to understand the role of the B-field and its interplay with turbulence and gravity in the dynamical evolution of the NGC 6334 filament network that harbours cluster-forming hubs and high-mass star formation. Methods. We present new observations of the dust polarized emission at 850 μ m toward the 2 pc × 10 pc map of NGC 6334 at a spatial resolution of 0.09 pc obtained with the James Clerk Maxwell Telescope (JCMT) as part of the B-field In STar-forming Region Observations (BISTRO) survey. We study the distribution and dispersion of the polarized intensity ( PI ), the polarization fraction ( PF ), and the plane-of-the-sky B-field angle ( χ B_POS ) toward the whole region, along the 10 pc-long ridge and along the sub-filaments connected to the ridge and the hubs. We derived the power spectra of the intensity and χ B POS along the ridge crest and compared them with the results obtained from simulated filaments. Results. The observations span ~3 orders of magnitude in Stokes I and PI and ~2 orders of magnitude in PF (from ~0.2 to ~ 20%). A large scatter in PI and PF is observed for a given value of I . Our analyses show a complex B-field structure when observed over the whole region (~ 10 pc); however, at smaller scales (~1 pc), χ B POS varies coherently along the crests of the filament network. The observed power spectrum of χ B POS can be well represented with a power law function with a slope of − 1.33 ± 0.23, which is ~20% shallower than that of I . We find that this result is compatible with the properties of simulated filaments and may indicate the physical processes at play in the formation and evolution of star-forming filaments. Along the sub-filaments, χ B POS rotates frombeing mostly perpendicular or randomly oriented with respect to the crests to mostly parallel as the sub-filaments merge with the ridge and hubs. This variation of the B-field structure along the sub-filaments may be tracing local velocity flows of infalling matter in the ridge and hubs. Our analysis also suggests a variation in the energy balance along the crests of these sub-filaments, from magnetically critical or supercritical at their far ends to magnetically subcritical near the ridge and hubs. We also detect an increase in PF toward the high-column density ( N H 2 ≳ 10 23 cm −2 ) star cluster-forming hubs. These latter large PF values may be explained by the increase in grain alignment efficiency due to stellar radiation from the newborn stars, combined with an ordered B-field structure. Conclusions. These observational results reveal for the first time the characteristics of the small-scale (down to ~ 0.1 pc) B-field structure of a 10 pc-long hub-filament system. Our analyses show variations in the polarization properties along the sub-filaments that may be tracing the evolution of their physical properties during their interaction with the ridge and hubs. We also detect an impact of feedback from young high-mass stars on the local B-field structure and the polarization properties, which could put constraints on possible models for dust grain alignment and provide important hints as to the interplay between the star formation activity and interstellar B-fields.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/202038624

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2021

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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The Solar Orbiter Science Activity Plan : Translating solar and heliospheric physics questions into action

Zouganelis, I. ; De Groof, A. ; Walsh, A. P. ; [et al.]

EDP Sciences ; 2020

In: Astronomy & Astrophysics Vol. 642 ( 2020-10), p. A3-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 642 ( 2020-10), p. A3-

Abstract: Solar Orbiter is the first space mission observing the solar plasma both in situ and remotely, from a close distance, in and out of the ecliptic. The ultimate goal is to understand how the Sun produces and controls the heliosphere, filling the Solar System and driving the planetary environments. With six remote-sensing and four in-situ instrument suites, the coordination and planning of the operations are essential to address the following four top-level science questions: (1) What drives the solar wind and where does the coronal magnetic field originate?; (2) How do solar transients drive heliospheric variability?; (3) How do solar eruptions produce energetic particle radiation that fills the heliosphere?; (4) How does the solar dynamo work and drive connections between the Sun and the heliosphere? Maximising the mission’s science return requires considering the characteristics of each orbit, including the relative position of the spacecraft to Earth (affecting downlink rates), trajectory events (such as gravitational assist manoeuvres), and the phase of the solar activity cycle. Furthermore, since each orbit’s science telemetry will be downloaded over the course of the following orbit, science operations must be planned at mission level, rather than at the level of individual orbits. It is important to explore the way in which those science questions are translated into an actual plan of observations that fits into the mission, thus ensuring that no opportunities are missed. First, the overarching goals are broken down into specific, answerable questions along with the required observations and the so-called Science Activity Plan (SAP) is developed to achieve this. The SAP groups objectives that require similar observations into Solar Orbiter Observing Plans, resulting in a strategic, top-level view of the optimal opportunities for science observations during the mission lifetime. This allows for all four mission goals to be addressed. In this paper, we introduce Solar Orbiter’s SAP through a series of examples and the strategy being followed.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/202038445

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2020

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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Validation of standardized data formats and tools for ground-level particle-based gamma-ray observatories

Albert, A. ; Alfaro, R. ; Arteaga-Velázquez, J. C. ; [et al.]

EDP Sciences ; 2022

In: Astronomy & Astrophysics Vol. 667 ( 2022-11), p. A36-

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In: Astronomy & Astrophysics, EDP Sciences, Vol. 667 ( 2022-11), p. A36-

Abstract: Context. Ground-based γ-ray astronomy is still a rather young field of research, with strong historical connections to particle physics. This is why most observations are conducted by experiments with proprietary data and analysis software, as is usual in the particle physics field. However, in recent years, this paradigm has been slowly shifting toward the development and use of open-source data formats and tools, driven by upcoming observatories such as the Cherenkov Telescope Array (CTA). In this context, a community-driven, shared data format (the gamma-astro-data-format , or GADF) and analysis tools such as Gammapy and ctools have been developed. So far, these efforts have been led by the Imaging Atmospheric Cherenkov Telescope community, leaving out other types of ground-based γ -ray instruments. Aims. We aim to show that the data from ground particle arrays, such as the High-Altitude Water Cherenkov (HAWC) observatory, are also compatible with the GADF and can thus be fully analyzed using the related tools, in this case, Gammapy. Methods. We reproduced several published HAWC results using Gammapy and data products compliant with GADF standard. We also illustrate the capabilities of the shared format and tools by producing a joint fit of the Crab spectrum including data from six different γ -ray experiments. Results. We find excellent agreement with the reference results, a powerful confirmation of both the published results and the tools involved. Conclusions. The data from particle detector arrays such as the HAWC observatory can be adapted to the GADF and thus analyzed with Gammapy. A common data format and shared analysis tools allow multi-instrument joint analysis and effective data sharing. To emphasize this, a sample of Crab nebula event lists is made public with this paper. Because of the complementary nature of pointing and wide-field instruments, this synergy will be distinctly beneficial for the joint scientific exploitation of future observatories such as the Southern Wide-field Gamma-ray Observatory and CTA.

Type of Medium: Online Resource

ISSN: 0004-6361 , 1432-0746

URL: Article

DOI: 10.1051/0004-6361/202243527

RVK:

UA 1000

RVK:

US 1090

Language: English

Publisher: EDP Sciences

Publication Date: 2022

detail.hit.zdb_id: 1458466-9

SSG: 16,12

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