192 research outputs found
Power spectrum multipoles on the curved sky: an application to the 6-degree Field Galaxy Survey
The peculiar velocities of galaxies cause their redshift-space clustering to
depend on the angle to the line-of-sight, providing a key test of gravitational
physics on cosmological scales. These effects may be described using a
multipole expansion of the clustering measurements. Focussing on Fourier-space
statistics, we present a new analysis of the effect of the survey window
function, and the variation of the line-of-sight across a survey, on the
modelling of power spectrum multipoles. We determine the joint covariance of
the Fourier-space multipoles in a Gaussian approximation, and indicate how
these techniques may be extended to studies of overlapping galaxy populations
via multipole cross-power spectra. We apply our methodology to one of the
widest-area galaxy redshift surveys currently available, the 6-degree Field
Galaxy Survey, deducing a normalized growth rate f*sigma_8(z=0.06) = 0.38 +/-
0.12 in the low-redshift Universe, in agreement with previous analyses of this
dataset using different techniques. Our framework should be useful for
processing future wide-angle galaxy redshift surveys.Comment: 17 pages, 7 figures, version accepted by MNRA
The Impact of Nonlinear Structure Formation on the Power Spectrum of Transverse Momentum Fluctuations and the Kinetic Sunyaev-Zel'dovich Effect
Cosmological transverse momentum fields, whose directions are perpendicular
to Fourier wave vectors, induce temperature anisotropies in the cosmic
microwave background via the kinetic Sunyaev-Zeldovich (kSZ) effect. The
transverse momentum power spectrum contains the four-point function of density
and velocity fields, . In the post-reionization
epoch, nonlinear effects dominate in the power spectrum. We use perturbation
theory and cosmological -body simulations to calculate this nonlinearity. We
derive the next-to-leading order expression for the power spectrum with a
particular emphasis on the connected term that has been ignored in the
literature. While the contribution from the connected term on small scales
() is subdominant relative to the unconnected term, we
find that its contribution to the kSZ power spectrum at at
can be as large as ten percent of the unconnected term, which would reduce the
allowed contribution from the reionization epoch () by twenty percent. The
power spectrum of transverse momentum on large scales is expected to scale as
as a consequence of momentum conservation. We show that both the leading
and the next-to-leading order terms satisfy this scaling. In particular, we
find that both of the unconnected and connected terms are necessary to
reproduce .Comment: 13 pages, 5 figures, Accepted to Ap
The Cluster-Merger Shock in 1E 0657-56: Faster than the Speeding Bullet?
Shock waves driven in the intergalactic medium during the merging of galaxy
clusters have been observed in X-ray imaging and spectroscopy. Fluid motions
inferred from the shock strength and morphology can be compared to the cold
dark matter (CDM) distribution inferred from gravitational lensing. A detailed
reconstruction of the CDM kinematics, however, must take into account the
nontrivial response of the fluid intracluster medium to the collisionless CDM
motions. We have carried out two-dimensional simulations of gas dynamics in
cluster collisions. We analyze the relative motion of the clusters, the bow
shock wave, and the contact discontinuity and relate these to X-ray data. We
focus on the "bullet cluster," 1E 0657-56, a near head-on collision of
unequal-mass clusters, for which the gas density and temperature jumps across
the prominent bow shock imply a high shock velocity 4,700 km/s. The velocity of
the fluid shock has been widely interpreted as the relative velocity of the CDM
components. This need not be the case, however. An illustrative simulation
finds that the present relative velocity of the CDM halos is 16% lower than
that of the shock. While this conclusion is sensitive to the detailed initial
mass and gas density profile of the colliding clusters, such a decrease of the
inferred halo relative velocity would increase the likelihood of finding 1E
0657-56 in a LambdaCDM universe.Comment: 4 pages, 4 figure
Will Nonlinear Peculiar Velocity and Inhomogeneous Reionization Spoil 21cm Cosmology from the Epoch of Reionization?
The 21cm background from the epoch of reionization is a promising
cosmological probe: line-of-sight velocity fluctuations distort redshift, so
brightness fluctuations in Fourier space depend upon angle, which linear theory
shows can separate cosmological from astrophysical information. Nonlinear
fluctuations in ionization, density and velocity change this, however. The
validity and accuracy of the separation scheme are tested here for the first
time, by detailed reionization simulations. The scheme works reasonably well
early in reionization ( 80% ionized).Comment: 2 figures, matches published PRL versio
Crystal structure of the pyrochlore oxide superconductor KOsO
We report the single-crystal X-ray analysis of the structure of the
pyrochlore oxide superconductor KOsO. The structure was identified as
the -pyrochlore structure with space group and lattice
constant = 10.089(2)~\AA at 300 K: the K atom is located at the 8 site,
not at the 16 site as in conventional pyrochlore oxides. We found an
anomalously large atomic displacement parameter =
0.0735(8)~\AA at 300 K for the K cation, which suggests that the K cation
weakly bound to an oversized OsO cage exhibits intensive
rattling, as recently observed for clathrate compounds. The rattling of A
cations is a common feature in the series of -pyrochlore oxide
superconductors AOsO (A = Cs, Rb and K), and is greatest for the
smallest K cation.Comment: 5 pages, 5 figures, to appear in J. Solid. State. Che
Low Redshift Baryon Acoustic Oscillation Measurement from the Reconstructed 6-degree Field Galaxy Survey
Low redshift measurements of Baryon Acoustic Oscillations (BAO) test the late
time evolution of the Universe and are a vital probe of Dark Energy. Over the
past decade both the 6-degree Field Galaxy Survey (6dFGS) and Sloan Digital Sky
Survey (SDSS) have provided important distance constraints at . In
this paper we re-evaluate the cosmological information from the BAO detection
in 6dFGS making use of HOD populated COLA mocks for a robust covariance matrix
and taking advantage of the now commonly implemented technique of density field
reconstruction. For the 6dFGS data, we find consistency with the previous
analysis, and obtain an isotropic volume averaged distance measurement of
, which has a non-Gaussian
likelihood outside the region. We combine our measurement from both
the post-reconstruction clustering of 6dFGS and SDSS MGS offering the most
robust constraint to date in this redshift regime,
.
These measurements are consistent with standard and after
fixing the standard ruler using a Planck prior on , the joint
analysis gives . In the
near future both the Taipan Galaxy Survey and the Dark Energy Spectroscopic
Instrument (DESI) will improve this measurement to at low redshift.Comment: 13 pages, 12 figure
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