1,182 research outputs found

    Why Do Only Some Galaxy Clusters Have Cool Cores?

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    Flux-limited X-ray samples indicate that about half of rich galaxy clusters have cool cores. Why do only some clusters have cool cores while others do not? In this paper, cosmological N-body + Eulerian hydrodynamic simulations, including radiative cooling and heating, are used to address this question as we examine the formation and evolution of cool core (CC) and non-cool core (NCC) clusters. These adaptive mesh refinement simulations produce both CC and NCC clusters in the same volume. They have a peak resolution of 15.6 h^{-1} kpc within a (256 h^{-1} Mpc)^3 box. Our simulations suggest that there are important evolutionary differences between CC clusters and their NCC counterparts. Many of the numerical CC clusters accreted mass more slowly over time and grew enhanced cool cores via hierarchical mergers; when late major mergers occurred, the CC's survived the collisions. By contrast, NCC clusters experienced major mergers early in their evolution that destroyed embryonic cool cores and produced conditions that prevented CC re-formation. As a result, our simulations predict observationally testable distinctions in the properties of CC and NCC beyond the core regions in clusters. In particular, we find differences between CC versus NCC clusters in the shapes of X-ray surface brightness profiles, between the temperatures and hardness ratios beyond the cores, between the distribution of masses, and between their supercluster environs. It also appears that CC clusters are no closer to hydrostatic equilibrium than NCC clusters, an issue important for precision cosmology measurements.Comment: 17 emulateapj pages, 17 figures, replaced with version accepted to Ap

    South Dakota Farm & Home Research Index: 1978 - 1994

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    South Dakota Farm &Home Research Index 1978-1994 aids researchers, extension personnel, historians, librarians, and others in locating information about the research of the state\u27s Agricultural Experiment Station. It facilitates the identification of articles describing relevant research and researchers. South Dakota Farm & Home Research has been published by the Agricultural Experiment Station, South Dakota State University, Brookings, since 1949. The quarterly journal features brief reports on a wide variety of experiment station and university research activities focusing on agriculture and home economics. This index supplements the previous index to South Dakota Farm & Home Research, compiled by Leon Raney and Jane Kinch, which covers 1949 through 1977. It provides subject and author indexing of the contents of the journal from 1978 (volume 29, number 1) through 1994 (volume 45, number 3). All articles published in the journal during those years are indexed, resulting in approximately 1,900 subject and author index entries. All subject headings were assigned by the indexers. Although some title words may have been assigned as subject headings, this is not a title-keyword index. Approximately 450 subject headings appear in the index, including many cross-references, i.e., SEE and SEE ALSO references. Most articles are listed under more than one subject heading to facilitate access. The author index lists articles under the names of all authors or coauthors. Therefore, an article written by five coauthors, is listed in the author index under each of the five names. Articles which do not identify the author(s) are not listed in the author index

    South Dakota Periodicals Index: 1987-1991

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    The South Dakota Periodicals Index 1987-1991 is a subject and author index to selected South Dakota periodicals and annuals published from 1987 through 1991. This multi-year cumulative edition continues indexing most of the publications covered by the previous cumulative edition and its annual supplements. In addition this cumulative edition includes indexing for 13 more periodicals than were covered by the 1982-1986 edition

    South Dakota Periodicals Index: 1982-1986

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    The South Dakota Periodicals Index is a subject and author index to selected periodicals and annuals published in South Dakota. Its purpose is to facilitate the location of information about the people, places, events, and issues that make South Dakota a special place. As reference librarians at South Dakota State University we are aware of the difficulty of finding specific information about South Dakota. National periodical indexes provide very limited coverage of South Dakota, and it is not unusual to search through many different indexes without finding a single reference to the state

    Riding the wake of a merging galaxy cluster

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    Using WHT OASIS integral field unit observations, we report the discovery of a thin plume of ionised gas extending from the brightest cluster galaxy in Abell 2146 to the sub-cluster X-ray cool core which is offset from the BCG by ~37 kpc. The plume is greater than 15 kpc long and less than 3 kpc wide. This plume is unique in that the cluster it is situated in is currently undergoing a major galaxy cluster merger. The brightest cluster galaxy is unusually located behind the X-ray shock front and in the wake of the ram pressure stripped X-ray cool core and evidence for recent disruption to the BCG is observed. We examine the gas and stellar morphology, the gas kinematics of the BCG and their relation to the X-ray gas. We propose that a causal link between the ionised gas plume and the offset X-ray cool core provides the simplest explanation for the formation of the plume. An interaction or merger between the BCG and another cluster galaxy is probably the cause of the offset.Comment: 14 pages, 18 figures, accepted for publication in MNRA

    Non-parametric modeling of the intra-cluster gas using APEX-SZ bolometer imaging data

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    We demonstrate the usability of mm-wavelength imaging data obtained from the APEX-SZ bolometer array to derive the radial temperature profile of the hot intra-cluster gas out to radius r_500 and beyond. The goal is to study the physical properties of the intra-cluster gas by using a non-parametric de-projection method that is, aside from the assumption of spherical symmetry, free from modeling bias. We use publicly available X-ray imaging data from the XMM-Newton observatory and our Sunyaev-Zel'dovich Effect (SZE) imaging data from the APEX-SZ experiment at 150 GHz to de-project the density and temperature profiles for the relaxed cluster Abell 2204. We derive the gas density, temperature and entropy profiles assuming spherical symmetry, and obtain the total mass profile under the assumption of hydrostatic equilibrium. For comparison with X-ray spectroscopic temperature models, a re-analysis of the recent Chandra observation is done with the latest calibration updates. Using the non-parametric modeling we demonstrate a decrease of gas temperature in the cluster outskirts, and also measure the gas entropy profile. These results are obtained for the first time independently of X-ray spectroscopy, using SZE and X-ray imaging data. The contribution of the SZE systematic uncertainties in measuring T_e at large radii is shown to be small compared to the Chandra systematic spectroscopic errors. The upper limit on M_200 derived from the non-parametric method is consistent with the NFW model prediction from weak lensing analysis.Comment: Replaced with the published version; A&A 519, A29 (2010
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