Kinematics of X-ray-emitting components in cassiopeia a

Tracey DeLaney; Lawrence Rudnick; Robert A. Fesen; T. W. Jones; Robert Petre; Jon A. Morse

doi:10.1086/422906

Kinematics of X-ray-emitting components in cassiopeia a

Tracey DeLaney, Lawrence Rudnick, Robert A. Fesen, T. W. Jones, Robert Petre, Jon A. Morse

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

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Abstract

We present high-resolution X-ray proper-motion measurements of Cassiopeia A using Chandra X-Ray Observatory observations from 2000 and 2002. We separate the emission into four spectrally distinct classes: Si-dominated, Fe-dominated, low-energy-enhanced, and continuum-dominated. These classes also represent distinct spatial and kinematic components. The Si- and Fe-dominated classes are ejecta and have a mean expansion rate of 0.2% yr^-1. This is the same as for the forward shock filaments but less than the 0.3% yr^-1 characteristic of optical ejecta. The low-energy-enhanced spectral class possibly illuminates a clumpy circumstellar component and has a mean expansion rate of 0.05% yr^-1. The continuum-dominated emission likely represents the forward shock and consists of diffuse circumstellar material, which is seen as a circular ring around the periphery of the remnant as well as projected across the center.

Original language	English (US)
Pages (from-to)	343-348
Number of pages	6
Journal	Astrophysical Journal
Volume	613
Issue number	1 I
DOIs	https://doi.org/10.1086/422906
State	Published - Sep 20 2004

Keywords

ISM: Individual (Cassiopeia-A)
Supernova remnants

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title = "Kinematics of X-ray-emitting components in cassiopeia a",

abstract = "We present high-resolution X-ray proper-motion measurements of Cassiopeia A using Chandra X-Ray Observatory observations from 2000 and 2002. We separate the emission into four spectrally distinct classes: Si-dominated, Fe-dominated, low-energy-enhanced, and continuum-dominated. These classes also represent distinct spatial and kinematic components. The Si- and Fe-dominated classes are ejecta and have a mean expansion rate of 0.2% yr-1. This is the same as for the forward shock filaments but less than the 0.3% yr-1 characteristic of optical ejecta. The low-energy-enhanced spectral class possibly illuminates a clumpy circumstellar component and has a mean expansion rate of 0.05% yr-1. The continuum-dominated emission likely represents the forward shock and consists of diffuse circumstellar material, which is seen as a circular ring around the periphery of the remnant as well as projected across the center.",

keywords = "ISM: Individual (Cassiopeia-A), Supernova remnants",

author = "Tracey DeLaney and Lawrence Rudnick and Fesen, {Robert A.} and Jones, {T. W.} and Robert Petre and Morse, {Jon A.}",

year = "2004",

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TY - JOUR

T1 - Kinematics of X-ray-emitting components in cassiopeia a

AU - DeLaney, Tracey

AU - Rudnick, Lawrence

AU - Fesen, Robert A.

AU - Jones, T. W.

AU - Petre, Robert

AU - Morse, Jon A.

PY - 2004/9/20

Y1 - 2004/9/20

N2 - We present high-resolution X-ray proper-motion measurements of Cassiopeia A using Chandra X-Ray Observatory observations from 2000 and 2002. We separate the emission into four spectrally distinct classes: Si-dominated, Fe-dominated, low-energy-enhanced, and continuum-dominated. These classes also represent distinct spatial and kinematic components. The Si- and Fe-dominated classes are ejecta and have a mean expansion rate of 0.2% yr-1. This is the same as for the forward shock filaments but less than the 0.3% yr-1 characteristic of optical ejecta. The low-energy-enhanced spectral class possibly illuminates a clumpy circumstellar component and has a mean expansion rate of 0.05% yr-1. The continuum-dominated emission likely represents the forward shock and consists of diffuse circumstellar material, which is seen as a circular ring around the periphery of the remnant as well as projected across the center.

AB - We present high-resolution X-ray proper-motion measurements of Cassiopeia A using Chandra X-Ray Observatory observations from 2000 and 2002. We separate the emission into four spectrally distinct classes: Si-dominated, Fe-dominated, low-energy-enhanced, and continuum-dominated. These classes also represent distinct spatial and kinematic components. The Si- and Fe-dominated classes are ejecta and have a mean expansion rate of 0.2% yr-1. This is the same as for the forward shock filaments but less than the 0.3% yr-1 characteristic of optical ejecta. The low-energy-enhanced spectral class possibly illuminates a clumpy circumstellar component and has a mean expansion rate of 0.05% yr-1. The continuum-dominated emission likely represents the forward shock and consists of diffuse circumstellar material, which is seen as a circular ring around the periphery of the remnant as well as projected across the center.

KW - ISM: Individual (Cassiopeia-A)

KW - Supernova remnants

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U2 - 10.1086/422906

DO - 10.1086/422906

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SP - 343

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JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1 I

ER -

Kinematics of X-ray-emitting components in cassiopeia a

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Keywords

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