PROBING FINAL STAGES OF STELLAR EVOLUTION WITH X-RAY OBSERVATIONS OF SN 2013ej

ABSTRACT Massive stars shape their surroundings with mass loss from winds during their lifetimes. Fast ejecta from supernovae (SNe), from these massive stars, shock this circumstellar medium. Emission generated by this interaction provides a window into the final stages of stellar evolution, by prob...

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Veröffentlicht in:	The Astrophysical journal 2016-01, Vol.817 (1), p.22
Hauptverfasser:	Chakraborti, Sayan, Ray, Alak, Smith, Randall, Margutti, Raffaella, Pooley, David, Bose, Subhash, Sutaria, Firoza, Chandra, Poonam, Dwarkadas, Vikram V., Ryder, Stuart, Maeda, Keiichi
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Sprache:	eng
Schlagworte:	ABSORPTION ASTROPHYSICS, COSMOLOGY AND ASTRONOMY circumstellar matter COMPTON EFFECT COMPUTERIZED SIMULATION COSMIC RADIATION Density Ejecta ELECTRONS EMISSION INTERSTELLAR SPACE MASS TRANSFER Massive stars Progenitors (astrophysics) RELATIVISTIC RANGE SHOCK WAVES STAR EVOLUTION stars: mass-loss Stellar evolution STELLAR WINDS SUPERNOVAE supernovae: individual (SN 2013ej) X RADIATION X-rays X-rays: general
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creator	Chakraborti, Sayan Ray, Alak Smith, Randall Margutti, Raffaella Pooley, David Bose, Subhash Sutaria, Firoza Chandra, Poonam Dwarkadas, Vikram V. Ryder, Stuart Maeda, Keiichi
description	ABSTRACT Massive stars shape their surroundings with mass loss from winds during their lifetimes. Fast ejecta from supernovae (SNe), from these massive stars, shock this circumstellar medium. Emission generated by this interaction provides a window into the final stages of stellar evolution, by probing the history of mass loss from the progenitor. Here we use Chandra and Swift X-ray observations of the type II-P/L SN 2013ej to probe the history of mass loss from its progenitor. We model the observed X-rays as emission from both heated circumstellar matter and SN ejecta. The circumstellar density profile probed by the SN shock reveals a history of steady mass loss during the final 400 years. The inferred mass loss rate of points back to a 14 progenitor. Soon after the explosion we find significant absorption of reverse shock emission by a cooling shell. The column depth of this shell observed in absorption provides an independent and consistent measurement of the circumstellar density seen in emission. We also determine the efficiency of cosmic ray acceleration from X-rays produced by Inverse Compton scattering of optical photons by relativistic electrons. Only about 1% of the thermal energy is used to accelerate electrons. Our X-ray observations and modeling provide stringent tests for models of massive stellar evolution and micro-physics of shocks.
doi_str_mv	10.3847/0004-637X/817/1/22
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Fast ejecta from supernovae (SNe), from these massive stars, shock this circumstellar medium. Emission generated by this interaction provides a window into the final stages of stellar evolution, by probing the history of mass loss from the progenitor. Here we use Chandra and Swift X-ray observations of the type II-P/L SN 2013ej to probe the history of mass loss from its progenitor. We model the observed X-rays as emission from both heated circumstellar matter and SN ejecta. The circumstellar density profile probed by the SN shock reveals a history of steady mass loss during the final 400 years. The inferred mass loss rate of points back to a 14 progenitor. Soon after the explosion we find significant absorption of reverse shock emission by a cooling shell. The column depth of this shell observed in absorption provides an independent and consistent measurement of the circumstellar density seen in emission. We also determine the efficiency of cosmic ray acceleration from X-rays produced by Inverse Compton scattering of optical photons by relativistic electrons. Only about 1% of the thermal energy is used to accelerate electrons. 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J</addtitle><description>ABSTRACT Massive stars shape their surroundings with mass loss from winds during their lifetimes. Fast ejecta from supernovae (SNe), from these massive stars, shock this circumstellar medium. Emission generated by this interaction provides a window into the final stages of stellar evolution, by probing the history of mass loss from the progenitor. Here we use Chandra and Swift X-ray observations of the type II-P/L SN 2013ej to probe the history of mass loss from its progenitor. We model the observed X-rays as emission from both heated circumstellar matter and SN ejecta. The circumstellar density profile probed by the SN shock reveals a history of steady mass loss during the final 400 years. The inferred mass loss rate of points back to a 14 progenitor. Soon after the explosion we find significant absorption of reverse shock emission by a cooling shell. The column depth of this shell observed in absorption provides an independent and consistent measurement of the circumstellar density seen in emission. We also determine the efficiency of cosmic ray acceleration from X-rays produced by Inverse Compton scattering of optical photons by relativistic electrons. Only about 1% of the thermal energy is used to accelerate electrons. 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Ray, Alak ; Smith, Randall ; Margutti, Raffaella ; Pooley, David ; Bose, Subhash ; Sutaria, Firoza ; Chandra, Poonam ; Dwarkadas, Vikram V. ; Ryder, Stuart ; Maeda, Keiichi</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c409t-a7156b962691e8def632876f708e28666dc91b908f1439770d5703195dc2fc9f3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2016</creationdate><topic>ABSORPTION</topic><topic>ASTROPHYSICS, COSMOLOGY AND ASTRONOMY</topic><topic>circumstellar matter</topic><topic>COMPTON EFFECT</topic><topic>COMPUTERIZED SIMULATION</topic><topic>COSMIC RADIATION</topic><topic>Density</topic><topic>Ejecta</topic><topic>ELECTRONS</topic><topic>EMISSION</topic><topic>INTERSTELLAR SPACE</topic><topic>MASS TRANSFER</topic><topic>Massive stars</topic><topic>Progenitors (astrophysics)</topic><topic>RELATIVISTIC RANGE</topic><topic>SHOCK WAVES</topic><topic>STAR EVOLUTION</topic><topic>stars: mass-loss</topic><topic>Stellar evolution</topic><topic>STELLAR WINDS</topic><topic>SUPERNOVAE</topic><topic>supernovae: individual (SN 2013ej)</topic><topic>X RADIATION</topic><topic>X-rays</topic><topic>X-rays: general</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Chakraborti, Sayan</creatorcontrib><creatorcontrib>Ray, Alak</creatorcontrib><creatorcontrib>Smith, Randall</creatorcontrib><creatorcontrib>Margutti, Raffaella</creatorcontrib><creatorcontrib>Pooley, David</creatorcontrib><creatorcontrib>Bose, Subhash</creatorcontrib><creatorcontrib>Sutaria, Firoza</creatorcontrib><creatorcontrib>Chandra, Poonam</creatorcontrib><creatorcontrib>Dwarkadas, Vikram V.</creatorcontrib><creatorcontrib>Ryder, Stuart</creatorcontrib><creatorcontrib>Maeda, Keiichi</creatorcontrib><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>OSTI.GOV</collection><jtitle>The Astrophysical journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Chakraborti, Sayan</au><au>Ray, Alak</au><au>Smith, Randall</au><au>Margutti, Raffaella</au><au>Pooley, David</au><au>Bose, Subhash</au><au>Sutaria, Firoza</au><au>Chandra, Poonam</au><au>Dwarkadas, Vikram V.</au><au>Ryder, Stuart</au><au>Maeda, Keiichi</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>PROBING FINAL STAGES OF STELLAR EVOLUTION WITH X-RAY OBSERVATIONS OF SN 2013ej</atitle><jtitle>The Astrophysical journal</jtitle><stitle>APJ</stitle><addtitle>Astrophys. 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Soon after the explosion we find significant absorption of reverse shock emission by a cooling shell. The column depth of this shell observed in absorption provides an independent and consistent measurement of the circumstellar density seen in emission. We also determine the efficiency of cosmic ray acceleration from X-rays produced by Inverse Compton scattering of optical photons by relativistic electrons. Only about 1% of the thermal energy is used to accelerate electrons. 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subjects	ABSORPTION ASTROPHYSICS, COSMOLOGY AND ASTRONOMY circumstellar matter COMPTON EFFECT COMPUTERIZED SIMULATION COSMIC RADIATION Density Ejecta ELECTRONS EMISSION INTERSTELLAR SPACE MASS TRANSFER Massive stars Progenitors (astrophysics) RELATIVISTIC RANGE SHOCK WAVES STAR EVOLUTION stars: mass-loss Stellar evolution STELLAR WINDS SUPERNOVAE supernovae: individual (SN 2013ej) X RADIATION X-rays X-rays: general
title	PROBING FINAL STAGES OF STELLAR EVOLUTION WITH X-RAY OBSERVATIONS OF SN 2013ej
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