Probing the behaviour of the X‐ray binary Cygnus X‐3 with very long baseline radio interferometry
Identifieur interne : 007205 ( Main/Exploration ); précédent : 007204; suivant : 007206Probing the behaviour of the X‐ray binary Cygnus X‐3 with very long baseline radio interferometry
Auteurs : V. Tudose [Pays-Bas, Roumanie] ; J. C. A. Miller-Jones [États-Unis, Pays-Bas] ; R. P. Fender [Pays-Bas] ; Z. Paragi [Pays-Bas, Hongrie] ; C. Sakari [États-Unis] ; A. Szostek [France, Pologne] ; M. A. Garrett [Pays-Bas, Australie] ; V. Dhawan [États-Unis] ; A. Rushton [Royaume-Uni] ; R. E. Spencer [Royaume-Uni] ; M. Van Der Klis [Pays-Bas]Source :
- Monthly Notices of the Royal Astronomical Society [ 0035-8711 ] ; 2010-01-11.
Descripteurs français
- Pascal (Inist)
- Wicri :
- topic : Classification.
English descriptors
- KwdEn :
- Accretion, Accretion disc, Accretion disks, Accretion state, Active state, Active states, April, Ares, Aring, Aring state, Astronomical data analysis software, Baseline, Behaviour, Binary X ray source, Binary cygnus, Bottom panel, Classification, Compact object, Core component, Cosmic x-ray sources, Count rate, Count rates, Direct tracer, Energy band, Fender, Hardness ratio, Hexte, High radio, Jets, Jodrell bank, Journal compilation, June, Major outbursts, Major radio, Major state, Major states, Merlin, Microquasar workshop, Middle panel, Mioduszewski, Mnras, National radio astronomy observatory, Netherlands institute, Observation number, Outburst, Overall radio, Pooley, Previous data, Proper motion, Quenched, Quenched radio emission, Quenched state, Quiescence, Quiescence state, RXTE satellite, Radiation mechanism, Radio band, Radio data, Radio emission, Radio flux, Radio maps, Radio observation, Radio observations, Radio spectrum, Radio states, Radio telescopes, Radiowave interferometers, Radiowave interferometry, Short baselines, Situation changes, Soft emission, Soft states, Spectral group, Standard procedures, Stronger radio, Szostek, Szostek zdziarski, Tracers, Transition level, Transition levels, Trushkin, Tudose, Vlba, Vlba data, Vlbi, Vlbi data, Vlbi observations, Vlbi scales, Waltman, X-ray binary stars, Zdziarski.
- Teeft :
- Accretion disc, Accretion state, Active state, Active states, April, Ares, Aring, Aring state, Astronomical data analysis software, Baseline, Behaviour, Binary cygnus, Bottom panel, Compact object, Core component, Count rate, Count rates, Direct tracer, Energy band, Fender, Hardness ratio, Hexte, High radio, Jodrell bank, Journal compilation, June, Major outbursts, Major radio, Major state, Major states, Merlin, Microquasar workshop, Middle panel, Mioduszewski, Mnras, National radio astronomy observatory, Netherlands institute, Observation number, Outburst, Overall radio, Pooley, Previous data, Proper motion, Quenched, Quenched radio emission, Quenched state, Quiescence, Quiescence state, Radio band, Radio data, Radio emission, Radio maps, Radio observation, Radio observations, Radio spectrum, Radio states, Radio telescopes, Short baselines, Situation changes, Soft emission, Soft states, Spectral group, Standard procedures, Stronger radio, Szostek, Szostek zdziarski, Transition level, Transition levels, Trushkin, Tudose, Vlba, Vlba data, Vlbi, Vlbi data, Vlbi observations, Vlbi scales, Waltman, Zdziarski.
Abstract
In order to test the recently proposed classification of the radio/X‐ray states of the X‐ray binary Cygnus X‐3 (Cyg X‐3), we present an analysis of the radio data available for the system at much higher spatial resolutions than used for defining the states. The radio data set consists of archival Very Long Baseline Array data at 5 or 15 GHz and new electronic European Very Long Baseline Interferometry Network data at 5 GHz. We also present 5‐GHz Multi‐Element Radio Linked Interferometer Network observations of an outburst of Cyg X‐3. In the X‐ray regime, we use quasi‐simultaneous with radio, monitoring and pointed Rossi X‐ray Timing Explorer observations. We find that when the radio emission from both jet and core is globally considered, the behaviour of Cyg X‐3 at mas scales is consistent with that described at arcsec‐scales. However, when the radio emission is disentangled in a core component and a jet component, the situation changes. It becomes clear that in active states the radio emission from the jet is dominating that from the core. This shows that in these states the overall radio flux cannot be used as a direct tracer of the accretion state.
Url:
- https://api.istex.fr/document/314B443BF13EA3B6EBE6DC186BC11CDA2B3995CE/fulltext/pdf
- https://api.istex.fr/document/407F0CAFFA51B483B113F96388C946903A63497C/fulltext/pdf
DOI: 10.1111/j.1365-2966.2009.15719.x
Affiliations:
- Australie, France, Hongrie, Pays-Bas, Pologne, Roumanie, Royaume-Uni, États-Unis
- Angleterre, Auvergne-Rhône-Alpes, Grand Manchester, Hollande-Septentrionale, Nouveau-Mexique, Rhône-Alpes, Virginie, Washington (État)
- Amsterdam, Grenoble, Manchester
- Université Joseph Fourier, Université d'Amsterdam, Université de Manchester
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Le document en format XML
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Van Der Klis</name><affiliation wicri:level="1"><country xml:lang="fr" wicri:curation="lc">Pays-Bas</country><wicri:regionArea>Netherlands Institute for Radio Astronomy, Postbus 2, 7990 AA Dwingeloo</wicri:regionArea><wicri:noRegion>7990 AA Dwingeloo</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Monthly Notices of the Royal Astronomical Society</title><title level="j" type="alt">MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY</title><idno type="ISSN">0035-8711</idno><idno type="eISSN">1365-2966</idno><imprint><biblScope unit="vol">401</biblScope><biblScope unit="issue">2</biblScope><biblScope unit="page" from="890">890</biblScope><biblScope unit="page" to="900">900</biblScope><biblScope unit="page-count">11</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2010-01-11">2010-01-11</date></imprint><idno type="ISSN">0035-8711</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0035-8711</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Accretion</term><term>Accretion disc</term><term>Accretion disks</term><term>Accretion state</term><term>Active state</term><term>Active states</term><term>April</term><term>Ares</term><term>Aring</term><term>Aring state</term><term>Astronomical data analysis software</term><term>Baseline</term><term>Behaviour</term><term>Binary X ray source</term><term>Binary cygnus</term><term>Bottom panel</term><term>Classification</term><term>Compact object</term><term>Core component</term><term>Cosmic x-ray sources</term><term>Count rate</term><term>Count rates</term><term>Direct tracer</term><term>Energy band</term><term>Fender</term><term>Hardness ratio</term><term>Hexte</term><term>High radio</term><term>Jets</term><term>Jodrell bank</term><term>Journal compilation</term><term>June</term><term>Major outbursts</term><term>Major radio</term><term>Major state</term><term>Major states</term><term>Merlin</term><term>Microquasar workshop</term><term>Middle panel</term><term>Mioduszewski</term><term>Mnras</term><term>National radio astronomy observatory</term><term>Netherlands institute</term><term>Observation number</term><term>Outburst</term><term>Overall radio</term><term>Pooley</term><term>Previous data</term><term>Proper motion</term><term>Quenched</term><term>Quenched radio emission</term><term>Quenched state</term><term>Quiescence</term><term>Quiescence state</term><term>RXTE satellite</term><term>Radiation mechanism</term><term>Radio band</term><term>Radio data</term><term>Radio emission</term><term>Radio flux</term><term>Radio maps</term><term>Radio observation</term><term>Radio observations</term><term>Radio spectrum</term><term>Radio states</term><term>Radio telescopes</term><term>Radiowave interferometers</term><term>Radiowave interferometry</term><term>Short baselines</term><term>Situation changes</term><term>Soft emission</term><term>Soft states</term><term>Spectral group</term><term>Standard procedures</term><term>Stronger radio</term><term>Szostek</term><term>Szostek zdziarski</term><term>Tracers</term><term>Transition level</term><term>Transition levels</term><term>Trushkin</term><term>Tudose</term><term>Vlba</term><term>Vlba data</term><term>Vlbi</term><term>Vlbi data</term><term>Vlbi observations</term><term>Vlbi scales</term><term>Waltman</term><term>X-ray binary stars</term><term>Zdziarski</term></keywords><keywords scheme="Pascal" xml:lang="fr"><term>Accrétion</term><term>Binaire RX</term><term>Classification</term><term>Disque accrétion</term><term>Emission radioélectrique</term><term>Flux radioélectrique</term><term>Interféromètre onde radio</term><term>Interférométrie onde radio</term><term>Jet</term><term>Mécanisme rayonnement</term><term>Satellite RXTE</term><term>Source RX binaire</term><term>Source RX cosmique</term><term>Traceur</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Accretion disc</term><term>Accretion state</term><term>Active state</term><term>Active states</term><term>April</term><term>Ares</term><term>Aring</term><term>Aring state</term><term>Astronomical data analysis software</term><term>Baseline</term><term>Behaviour</term><term>Binary cygnus</term><term>Bottom panel</term><term>Compact object</term><term>Core component</term><term>Count rate</term><term>Count rates</term><term>Direct tracer</term><term>Energy band</term><term>Fender</term><term>Hardness ratio</term><term>Hexte</term><term>High radio</term><term>Jodrell bank</term><term>Journal compilation</term><term>June</term><term>Major outbursts</term><term>Major radio</term><term>Major state</term><term>Major states</term><term>Merlin</term><term>Microquasar workshop</term><term>Middle panel</term><term>Mioduszewski</term><term>Mnras</term><term>National radio astronomy observatory</term><term>Netherlands institute</term><term>Observation number</term><term>Outburst</term><term>Overall radio</term><term>Pooley</term><term>Previous data</term><term>Proper motion</term><term>Quenched</term><term>Quenched radio emission</term><term>Quenched state</term><term>Quiescence</term><term>Quiescence state</term><term>Radio band</term><term>Radio data</term><term>Radio emission</term><term>Radio maps</term><term>Radio observation</term><term>Radio observations</term><term>Radio spectrum</term><term>Radio states</term><term>Radio telescopes</term><term>Short baselines</term><term>Situation changes</term><term>Soft emission</term><term>Soft states</term><term>Spectral group</term><term>Standard procedures</term><term>Stronger radio</term><term>Szostek</term><term>Szostek zdziarski</term><term>Transition level</term><term>Transition levels</term><term>Trushkin</term><term>Tudose</term><term>Vlba</term><term>Vlba data</term><term>Vlbi</term><term>Vlbi data</term><term>Vlbi observations</term><term>Vlbi scales</term><term>Waltman</term><term>Zdziarski</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Classification</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">In order to test the recently proposed classification of the radio/X‐ray states of the X‐ray binary Cygnus X‐3 (Cyg X‐3), we present an analysis of the radio data available for the system at much higher spatial resolutions than used for defining the states. The radio data set consists of archival Very Long Baseline Array data at 5 or 15 GHz and new electronic European Very Long Baseline Interferometry Network data at 5 GHz. We also present 5‐GHz Multi‐Element Radio Linked Interferometer Network observations of an outburst of Cyg X‐3. In the X‐ray regime, we use quasi‐simultaneous with radio, monitoring and pointed Rossi X‐ray Timing Explorer observations. We find that when the radio emission from both jet and core is globally considered, the behaviour of Cyg X‐3 at mas scales is consistent with that described at arcsec‐scales. However, when the radio emission is disentangled in a core component and a jet component, the situation changes. It becomes clear that in active states the radio emission from the jet is dominating that from the core. This shows that in these states the overall radio flux cannot be used as a direct tracer of the accretion state.</div></front></TEI><affiliations><list><country><li>Australie</li><li>France</li><li>Hongrie</li><li>Pays-Bas</li><li>Pologne</li><li>Roumanie</li><li>Royaume-Uni</li><li>États-Unis</li></country><region><li>Angleterre</li><li>Auvergne-Rhône-Alpes</li><li>Grand Manchester</li><li>Hollande-Septentrionale</li><li>Nouveau-Mexique</li><li>Rhône-Alpes</li><li>Virginie</li><li>Washington (État)</li></region><settlement><li>Amsterdam</li><li>Grenoble</li><li>Manchester</li></settlement><orgName><li>Université Joseph Fourier</li><li>Université d'Amsterdam</li><li>Université de Manchester</li></orgName></list><tree><country name="Pays-Bas"><noRegion><name sortKey="Tudose, V" sort="Tudose, V" uniqKey="Tudose V" first="V." last="Tudose">V. Tudose</name></noRegion><name sortKey="Fender, R P" sort="Fender, R P" uniqKey="Fender R" first="R. P." last="Fender">R. P. Fender</name><name sortKey="Garrett, M A" sort="Garrett, M A" uniqKey="Garrett M" first="M. A." last="Garrett">M. A. Garrett</name><name sortKey="Garrett, M A" sort="Garrett, M A" uniqKey="Garrett M" first="M. A." last="Garrett">M. A. Garrett</name><name sortKey="Miller Ones, J C A" sort="Miller Ones, J C A" uniqKey="Miller Ones J" first="J. C. A." last="Miller-Jones">J. C. A. Miller-Jones</name><name sortKey="Paragi, Z" sort="Paragi, Z" uniqKey="Paragi Z" first="Z." last="Paragi">Z. Paragi</name><name sortKey="Tudose, V" sort="Tudose, V" uniqKey="Tudose V" first="V." last="Tudose">V. Tudose</name><name sortKey="Tudose, V" sort="Tudose, V" uniqKey="Tudose V" first="V." last="Tudose">V. Tudose</name><name sortKey="Van Der Klis, M" sort="Van Der Klis, M" uniqKey="Van Der Klis M" first="M." last="Van Der Klis">M. Van Der Klis</name></country><country name="Roumanie"><noRegion><name sortKey="Tudose, V" sort="Tudose, V" uniqKey="Tudose V" first="V." last="Tudose">V. Tudose</name></noRegion><name sortKey="Tudose, V" sort="Tudose, V" uniqKey="Tudose V" first="V." last="Tudose">V. Tudose</name></country><country name="États-Unis"><region name="Virginie"><name sortKey="Miller Ones, J C A" sort="Miller Ones, J C A" uniqKey="Miller Ones J" first="J. C. A." last="Miller-Jones">J. C. A. Miller-Jones</name></region><name sortKey="Dhawan, V" sort="Dhawan, V" uniqKey="Dhawan V" first="V." last="Dhawan">V. Dhawan</name><name sortKey="Sakari, C" sort="Sakari, C" uniqKey="Sakari C" first="C." last="Sakari">C. Sakari</name></country><country name="Hongrie"><noRegion><name sortKey="Paragi, Z" sort="Paragi, Z" uniqKey="Paragi Z" first="Z." last="Paragi">Z. Paragi</name></noRegion></country><country name="France"><region name="Auvergne-Rhône-Alpes"><name sortKey="Szostek, A" sort="Szostek, A" uniqKey="Szostek A" first="A." last="Szostek">A. Szostek</name></region></country><country name="Pologne"><noRegion><name sortKey="Szostek, A" sort="Szostek, A" uniqKey="Szostek A" first="A." last="Szostek">A. Szostek</name></noRegion></country><country name="Australie"><noRegion><name sortKey="Garrett, M A" sort="Garrett, M A" uniqKey="Garrett M" first="M. A." last="Garrett">M. A. Garrett</name></noRegion></country><country name="Royaume-Uni"><region name="Angleterre"><name sortKey="Rushton, A" sort="Rushton, A" uniqKey="Rushton A" first="A." last="Rushton">A. Rushton</name></region><name sortKey="Spencer, R E" sort="Spencer, R E" uniqKey="Spencer R" first="R. E." last="Spencer">R. E. Spencer</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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