It is a firm prediction of the concordance Cold Dark Matter (CDM)
cosmological model that galaxy clusters live at the intersection of large-scale
structure filaments. The thread-like structure of this "cosmic web" has been
traced by galaxy redshift surveys for decades. More recently the Warm-Hot
Intergalactic Medium (WHIM) residing in low redshift filaments has been
observed in emission and absorption. However, a reliable direct detection of
the underlying Dark Matter skeleton, which should contain more than half of all
matter, remained elusive, as earlier candidates for such detections were either
falsified or suffered from low signal-to-noise ratios and unphysical
misalignements of dark and luminous matter. Here we report the detection of a
dark matter filament connecting the two main components of the Abell 222/223
supercluster system from its weak gravitational lensing signal, both in a
non-parametric mass reconstruction and in parametric model fits. This filament
is coincident with an overdensity of galaxies and diffuse, soft X-ray emission
and contributes mass comparable to that of an additional galaxy cluster to the
total mass of the supercluster. Combined with X-ray observations, we place an
upper limit of 0.09 on the hot gas fraction, the mass of X-ray emitting gas
divided by the total mass, in the filament.
Описание
[1207.0809] A filament of dark matter between two clusters of galaxies
%0 Generic
%1 dietrich2012filament
%A Dietrich, Jörg P.
%A Werner, Norbert
%A Clowe, Douglas
%A Finoguenov, Alexis
%A Kitching, Tom
%A Miller, Lance
%A Simionescu, Aurora
%D 2012
%K cosmic dark matter web
%R 10.1038/nature11224
%T A filament of dark matter between two clusters of galaxies
%U http://arxiv.org/abs/1207.0809
%X It is a firm prediction of the concordance Cold Dark Matter (CDM)
cosmological model that galaxy clusters live at the intersection of large-scale
structure filaments. The thread-like structure of this "cosmic web" has been
traced by galaxy redshift surveys for decades. More recently the Warm-Hot
Intergalactic Medium (WHIM) residing in low redshift filaments has been
observed in emission and absorption. However, a reliable direct detection of
the underlying Dark Matter skeleton, which should contain more than half of all
matter, remained elusive, as earlier candidates for such detections were either
falsified or suffered from low signal-to-noise ratios and unphysical
misalignements of dark and luminous matter. Here we report the detection of a
dark matter filament connecting the two main components of the Abell 222/223
supercluster system from its weak gravitational lensing signal, both in a
non-parametric mass reconstruction and in parametric model fits. This filament
is coincident with an overdensity of galaxies and diffuse, soft X-ray emission
and contributes mass comparable to that of an additional galaxy cluster to the
total mass of the supercluster. Combined with X-ray observations, we place an
upper limit of 0.09 on the hot gas fraction, the mass of X-ray emitting gas
divided by the total mass, in the filament.
@misc{dietrich2012filament,
abstract = {It is a firm prediction of the concordance Cold Dark Matter (CDM)
cosmological model that galaxy clusters live at the intersection of large-scale
structure filaments. The thread-like structure of this "cosmic web" has been
traced by galaxy redshift surveys for decades. More recently the Warm-Hot
Intergalactic Medium (WHIM) residing in low redshift filaments has been
observed in emission and absorption. However, a reliable direct detection of
the underlying Dark Matter skeleton, which should contain more than half of all
matter, remained elusive, as earlier candidates for such detections were either
falsified or suffered from low signal-to-noise ratios and unphysical
misalignements of dark and luminous matter. Here we report the detection of a
dark matter filament connecting the two main components of the Abell 222/223
supercluster system from its weak gravitational lensing signal, both in a
non-parametric mass reconstruction and in parametric model fits. This filament
is coincident with an overdensity of galaxies and diffuse, soft X-ray emission
and contributes mass comparable to that of an additional galaxy cluster to the
total mass of the supercluster. Combined with X-ray observations, we place an
upper limit of 0.09 on the hot gas fraction, the mass of X-ray emitting gas
divided by the total mass, in the filament.},
added-at = {2012-07-05T07:52:11.000+0200},
author = {Dietrich, Jörg P. and Werner, Norbert and Clowe, Douglas and Finoguenov, Alexis and Kitching, Tom and Miller, Lance and Simionescu, Aurora},
biburl = {https://www.bibsonomy.org/bibtex/272129366701a7d997b75c8240a1729c0/miki},
description = {[1207.0809] A filament of dark matter between two clusters of galaxies},
doi = {10.1038/nature11224},
interhash = {535641066b8eaa1e1a873eab28a7f4e2},
intrahash = {72129366701a7d997b75c8240a1729c0},
keywords = {cosmic dark matter web},
note = {cite arxiv:1207.0809Comment: Nature, in press},
timestamp = {2012-07-05T07:52:11.000+0200},
title = {A filament of dark matter between two clusters of galaxies},
url = {http://arxiv.org/abs/1207.0809},
year = 2012
}