ChandraObservation of Abell 2142: Survival of Dense Subcluster Cores in a Merger | Zendy

M. Markevitch | Zendy; T. J. Ponman | Zendy; P. E. J. Nulsen | Zendy; Marshall W. Bautz | Zendy; D. J. Burke | Zendy; L. P. David | Zendy; David Davis | Zendy; Rich Donnelly | Zendy; W. Forman | Zendy; C. Jones | Zendy; J. S. Kaastra | Zendy; E. Kellogg | Zendy; D.W. Kim | Zendy; J. Kolodziejczak | Zendy; P. Mazzotta | Zendy; A. Pagliaro | Zendy; S. Patel | Zendy; L. van Speybroeck | Zendy; A. Vikhlinin | Zendy; J. M. Vrtilek | Zendy; M. W. Wise | Zendy; P. Zhao | Zendy

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ChandraObservation of Abell 2142: Survival of Dense Subcluster Cores in a Merger

Author(s) -

M. Markevitch,

T. J. Ponman,

P. E. J. Nulsen,

Marshall W. Bautz,

D. J. Burke,

L. P. David,

David Davis,

Rich Donnelly,

W. Forman,

C. Jones,

J. S. Kaastra,

E. Kellogg,

D.W. Kim,

J. Kolodziejczak,

P. Mazzotta,

A. Pagliaro,

S. Patel,

L. van Speybroeck,

A. Vikhlinin,

J. M. Vrtilek,

M. W. Wise,

P. Zhao

Publication year - 2000

Publication title -

the astrophysical journal

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.376

H-Index - 489

eISSN - 1538-4357

pISSN - 0004-637X

DOI - 10.1086/309470

Subject(s) - astrophysics , surface brightness , classification of discontinuities , physics , ram pressure , cluster (spacecraft) , leading edge , shock (circulatory) , brightness , cooling flow , astronomy , mechanics , star formation , galaxy , medicine , mathematical analysis , mathematics , computer science , programming language

We use Chandra data to map the gas temperature in the central region of the merging cluster A2142. The cluster is markedly nonisothermal; it appears that the central cooling flow has been disturbed but not destroyed by a merger. The X-ray image exhibits two sharp, bow-shaped, shock-like surface brightness edges or gas density discontinuities. However, temperature and pressure profiles across these edges indicate that these are not shock fronts. The pressure is reasonably continuous across these edges, while the entropy jumps in the opposite sense to that in a shock (i.e. the denser side of the edge has lower temperature, and hence lower entropy). Most plausibly, these edges delineate the dense subcluster cores that have survived a merger and ram pressure stripping by the surrounding shock-heated gas. Subject headings: Galaxies: clusters: individual (A2142) — intergalactic medium

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