24 results on '"Rowe, Barnaby"'
Search Results
2. Direct detection of quasar feedback via the Sunyaev–Zeldovich effect.
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Lacy, Mark, Mason, Brian, Sarazin, Craig, Chatterjee, Suchetana, Nyland, Kristina, Kimball, Amy, Rocha, Graca, Rowe, Barnaby, and Surace, Jason
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QUASARS ,SUNYAEV-Zel'dovich effect ,THERMAL plasmas ,INTERSTELLAR medium ,RADIO sources (Astronomy) - Abstract
The nature and energetics of feedback from thermal winds in quasars can be constrained via observations of the Sunyaev–Zeldovich Effect (SZE) induced by the bubble of thermal plasma blown into the intergalactic medium by the quasar wind. In this letter, we present evidence that we have made the first detection of such a bubble, associated with the hyperluminous quasar HE 0515-4414. The SZE detection is corroborated by the presence of extended emission line gas at the same position angle as the wind. Our detection appears on only one side of the quasar, consistent with the SZE signal arising from a combination of thermal and kinetic contributions. Estimates of the energy in the wind allow us to constrain the wind luminosity to the lower end of theoretical predictions, ∼0.01 per cent of the bolometric luminosity of the quasar. However, the age we estimate for the bubble, ∼0.1 Gyr, and the long cooling time, ∼0.6 Gyr, means that such bubbles may be effective at providing feedback between bursts of quasar activity. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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3. Measurement of Outflow Facility Using iPerfusion.
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Sherwood, Joseph M., Reina-Torres, Ester, Bertrand, Jacques A., Rowe, Barnaby, and Overby, Darryl R.
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PERFUSION ,INTRAOCULAR pressure ,GLAUCOMA ,AQUEOUS humor ,HYDRAULIC conductivity ,DISEASE risk factors - Abstract
Elevated intraocular pressure (IOP) is the predominant risk factor for glaucoma, and reducing IOP is the only successful strategy to prevent further glaucomatous vision loss. IOP is determined by the balance between the rates of aqueous humour secretion and outflow, and a pathological reduction in the hydraulic conductance of outflow, known as outflow facility, is responsible for IOP elevation in glaucoma. Mouse models are often used to investigate the mechanisms controlling outflow facility, but the diminutive size of the mouse eye makes measurement of outflow technically challenging. In this study, we present a new approach to measure and analyse outflow facility using iPerfusion
™ , which incorporates an actuated pressure reservoir, thermal flow sensor, differential pressure measurement and an automated computerised interface. In enucleated eyes from C57BL/6J mice, the flow-pressure relationship is highly non-linear and is well represented by an empirical power law model that describes the pressure dependence of outflow facility. At zero pressure, the measured flow is indistinguishable from zero, confirming the absence of any significant pressure independent flow in enucleated eyes. Comparison with the commonly used 2-parameter linear outflow model reveals that inappropriate application of a linear fit to a non-linear flow-pressure relationship introduces considerable errors in the estimation of outflow facility and leads to the false impression of pressure-independent outflow. Data from a population of enucleated eyes from C57BL/6J mice show that outflow facility is best described by a lognormal distribution, with 6-fold variability between individuals, but with relatively tight correlation of facility between fellow eyes. iPerfusion represents a platform technology to accurately and robustly characterise the flow-pressure relationship in enucleated mouse eyes for the purpose of glaucoma research and with minor modifications, may be applied in vivo to mice, as well as to eyes from other species or different biofluidic systems. [ABSTRACT FROM AUTHOR]- Published
- 2016
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4. GREAT3 results -1. Systematic errors in shear estimation and the impact of real galaxy morphology.
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Mandelbaum, Rachel, Rowe, Barnaby, Armstrong, Robert, Bard, Deborah, Bertin, Emmanuel, Bosch, James, Boutigny, Dominique, Courbin, Frederic, Dawson, William A., Donnarumma, Annamaria, Conti, Ian Fenech, Gavazzi, Raphaël, Gentile, Marc, Gill, Mandeep S. S., Hogg, David W., Huff, Eric M., Jee, M. James, Kacprzak, Tomasz, Kilbinger, Martin, and Kuntzer, Thibault
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GRAVITATIONAL lenses , *MEASUREMENT errors , *SHEAR (Mechanics) , *NUCLEAR physics experiments , *GALAXY formation , *SIGNAL-to-noise ratio - Abstract
We present first results from the third GRavitational lEnsing Accuracy Testing (GREAT3) challenge, the third in a sequence of challenges for testing methods of inferring weak gravitational lensing shear distortions from simulated galaxy images. GREAT3 was divided into experiments to test three specific questions, and included simulated space- and ground-based data with constant or cosmologically varying shear fields. The simplest (control) experiment included parametric galaxies with a realistic distribution of signal-to-noise, size, and elliptic-ity, and a complex point spread function (PSF). The other experiments tested the additional impact of realistic galaxy morphology, multiple exposure imaging, and the uncertainty about a spatially varying PSF; the last two questions will be explored in Paper II. The 24 participating teams competed to estimate lensing shears to within systematic error tolerances for upcoming Stage-IV dark energy surveys, making 1525 submissions overall. GREAT3 saw considerable variety and innovation in the types of methods applied. Several teams now meet or exceed the targets in many of the tests conducted (to within the statistical errors). We conclude that the presence of realistic galaxy morphology in simulations changes shear calibration biases by ~1 per cent for a wide range of methods. Other effects such as truncation biases due to finite galaxy postage stamps, and the impact of galaxy type as measured by the Sersic index, are quantified for the first time. Our results generalize previous studies regarding sensitivities to galaxy size and signal-to-noise, and to PSF properties such as seeing and defocus. Almost all methods' results support the simple model in which additive shear biases depend linearly on PSF ellipticity. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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5. CFHTLenS: a weak lensing shear analysis of the 3D-Matched-Filter galaxy clusters.
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Ford, Jes, Van Waerbeke, Ludovic, Milkeraitis, Martha, Laigle, Clotilde, Hildebrandt, Hendrik, Erben, Thomas, Heymans, Catherine, Hoekstra, Henk, Kitching, Thomas, Mellier, Yannick, Miller, Lance, Choi, Ami, Coupon, Jean, Fu, Liping, Hudson, Michael J., Kuijken, Konrad, Robertson, Naomi, Rowe, Barnaby, Schrabback, Tim, and Velander, Malin
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GALAXY clusters ,GRAVITATIONAL lenses ,MATCHED filters ,SHEAR (Mechanics) ,MAGNIFICATION (Optics) ,REDSHIFT - Abstract
We present the cluster mass-richness scaling relation calibrated by a weak lensing analysis of ≿ 18 000 galaxy cluster candidates in the Canada-France-Hawaii Telescope Lensing Survey (CFHTLenS). Detected using the 3D-Matched-Filter (MF) cluster-finder of Milkeraitis et al., these cluster candidates span a wide range of masses, from the small group scale up to ~10
15 M⊙ , andredshifts 0.2 ≲ z ≲ <0.9. The total significance of the stacked shear measurement amounts to 54σ. We compare cluster masses determined using weak lensing shear and magnification, finding the measurements in individual richness bins to yield 1σ compatibility, but with magnification estimates biased low. This first direct mass comparison yields important insights for improving the systematics handling of future lensing magnification work. In addition, we confirm analyses that suggest cluster miscentring has an important effect on the observed 3D-MF halo profiles, and we quantify this by fitting for projected cluster centroid offsets, which are typically ~0.4 arcmin. We bin the cluster candidates as a function of redshift, finding similar cluster masses and richness across the full range up to z ~ 0.9. We measure the 3D-MF mass-richness scaling relation M200 = M0 (N200 /20)β . We find a normalization M0 ~ (2.7-0.4 +0.5 ) x 1013 M⊙ , and a logarithmic slope of β ~ 1.4 ± 0.1, both of which are in 1σ agreement with results from the magnification analysis. We find no evidence for a redshift dependence of the normalization. The CFHTLenS 3D-MF cluster catalogue is now available at cfhtlens.org. [ABSTRACT FROM AUTHOR]- Published
- 2015
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6. CFHTLenS: co-evolution of galaxies and their dark matter haloes.
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Hudson, Michael J., Gillis, Bryan R., Coupon, Jean, Hildebrandt, Hendrik, Erben, Thomas, Heymans, Catherine, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Bonnett, Christopher, Liping Fu, Kuijken, Konrad, Rowe, Barnaby, Schrabback, Tim, Semboloni, Elisabetta, van Uitert, Edo, and Velander, Malin
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DARK matter ,GALACTIC evolution ,STELLAR mass ,METAPHYSICAL cosmology ,STELLAR evolution - Abstract
Galaxy-galaxy weak lensing is a direct probe of the mean matter distribution around galaxies. The depth and sky coverage of the Canada-France-Hawaii Telescope Legacy Survey yield statistically significant galaxy halo mass measurements over a much wider range of stellar masses (10
8.75 to 1011.3 M⊙ ) and redshifts (0.2 < z < 0.8) than previous weak lensing studies. At redshift z ~ 0.5, the stellar-to-halo mass ratio (SHMR) reaches a maximum of 4.0 ± 0.2percent as a function of halo mass at ~1012.25M⊙ . We find, for the first time from weak lensing alone, evidence for significant evolution in the SHMR: the peak ratio falls as a function of cosmic time from 4.5 ± 0.3percent at z ~ 0.7 to 3.4 ± 0.2percent at z ~ 0.3, and shifts to lower stellar mass haloes. These evolutionary trends are dominated by red galaxies, and are consistent with a model in which the stellar mass above which star formation is quenched 'downsizes' with cosmic time. In contrast, the SHMR of blue, star-forming galaxies is well fitted by a power law that does not evolve with time. This suggests that blue galaxies form stars at a rate that is balanced with their dark matter accretion in such a way that they evolve along the SHMR locus. The redshift dependence of the SHMR can be used to constrain the evolution of the galaxy population over cosmic time. [ABSTRACT FROM AUTHOR]- Published
- 2015
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7. Weak lensing measurements in simulations of radio images.
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Patel, Prina, Abdalla, Filipe B., Bacon, David J., Rowe, Barnaby, Smirnov, Oleg M., and Beswick, Rob J.
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GRAVITATIONAL lenses ,ASTRONOMICAL observations ,METAPHYSICAL cosmology ,INTERFEROMETERS ,GALAXY formation - Abstract
We present a study of weak lensing shear measurements for simulated galaxy images at radio wavelengths. We construct a simulation pipeline into which we can input galaxy images of known shapelet ellipticity, and with which we then simulate observations with eMERLIN and the international LOFAR array. The simulations include the effects of the clean algorithm, uv sampling, observing angle and visibility noise, and produce realistic restored images of the galaxies. We apply a shapelet-based shear measurement method to these images and test our ability to recover the true source shapelet ellipticities. We model and deconvolve the effective point spread function, and find suitable parameters for clean and shapelet decomposition of galaxies. We demonstrate that ellipticities can be measured faithfully in these radio simulations, with no evidence of an additive bias and a modest (10 per cent) multiplicative bias on the ellipticity measurements. Our simulation pipeline can be used to test shear measurement procedures and systematics for the next generation of radio telescopes. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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8. Sérsic galaxy models in weak lensing shape measurement: model bias, noise bias and their interaction.
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Kacprzak, Tomasz, Bridle, Sarah, Rowe, Barnaby, Voigt, Lisa, Zuntz, Joe, Hirsch, Michael, and MacCrann, Niall
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GRAVITATIONAL lenses ,SHAPE measurement ,ASTRONOMICAL observations ,METAPHYSICAL cosmology ,GALACTIC evolution - Abstract
Cosmic shear is a powerful probe of cosmological parameters, but its potential can be fully utilized only if galaxy shapes are measured with great accuracy. Two major effects have been identified which are likely to account for most of the bias seen for maximum likelihood methods in recent shear measurement challenges. Model bias occurs when the true galaxy shape is not well represented by the fitted model. Noise bias occurs due to the non-linear relationship between image pixels and galaxy shape. In this paper we investigate the potential interplay between these two effects when an imperfect model is used in the presence of high noise. We present analytical expressions for this bias, which depends on the residual difference between the model and real data. They can lead to biases not accounted for in previous calibration schemes. By measuring the model bias, noise bias and their interaction, we provide a complete statistical framework for measuring galaxy shapes with model fitting methods from GRavitational lEnsing Accuracy Testing (GREAT)-like images. We demonstrate the noise and model interaction bias using a simple toy model, which indicates that this effect can potentially be significant. Using real galaxy images from the Cosmological Evolution Survey (COSMOS) we quantify the strength of the model bias, noise bias and their interaction. We find that the interaction term is often of a similar size to the model bias term, and is smaller than the requirements of current and near future galaxy surveys. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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9. CFHTLenS: cosmological constraints from a combination of cosmic shear two-point and three-point correlations.
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Fu, Liping, Kilbinger, Martin, Erben, Thomas, Heymans, Catherine, Hildebrandt, Hendrik, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Semboloni, Elisabetta, Simon, Patrick, Van Waerbeke, Ludovic, Coupon, Jean, Harnois-Déraps, Joachim, Hudson, Michael J., Kuijken, Konrad, Rowe, Barnaby, Schrabback, Tim, Vafaei, Sanaz, and Velander, Malin
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METAPHYSICAL cosmology ,ANISOTROPY ,COSMIC background radiation ,ASTROPHYSICS ,OPTICAL apertures - Abstract
Higher order, non-Gaussian aspects of the large-scale structure carry valuable information on structure formation and cosmology, which is complementary to second-order statistics. In this work, we measure second- and third-order weak-lensing aperture-mass moments from the Canada–France–Hawaii Lensing Survey (CFHTLenS) and combine those with cosmic microwave background (CMB) anisotropy probes. The third moment is measured with a significance of 2σ. The combined constraint on Σ8 = σ8(Ωm/0.27)α is improved by 10 per cent, in comparison to the second-order only, and the allowed ranges for Ωm and σ8 are substantially reduced. Including general triangles of the lensing bispectrum yields tighter constraints compared to probing mainly equilateral triangles. Second- and third-order CFHTLenS lensing measurements improve Planck CMB constraints on Ωm and σ8 by 26 per cent for flat Λ cold dark matter. For a model with free curvature, the joint CFHTLenS–Planck result is Ωm = 0.28 ± 0.02 (68 per cent confidence), which is an improvement of 43 per cent compared to Planck alone. We test how our results are potentially subject to three astrophysical sources of contamination: source-lens clustering, the intrinsic alignment of galaxy shapes, and baryonic effects. We explore future limitations of the cosmological use of third-order weak lensing, such as the non-linear model and the Gaussianity of the likelihood function. [ABSTRACT FROM AUTHOR]
- Published
- 2014
10. Defining a weak lensing experiment in space.
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Cropper, Mark, Hoekstra, Henk, Kitching, Thomas, Massey, Richard, Amiaux, Jérôme, Miller, Lance, Mellier, Yannick, Rhodes, Jason, Rowe, Barnaby, Pires, Sandrine, Saxton, Curtis, and Scaramella, Roberto
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GRAVITATIONAL lenses ,CHARGE coupled devices ,SPACE vehicles ,ASTRONOMICAL observations ,IMAGE analysis - Abstract
This paper describes the definition of a typical next-generation space-based weak gravitational lensing experiment. We first adopt a set of top-level science requirements from the literature, based on the scale and depth of the galaxy sample, and the avoidance of systematic effects in the measurements which would bias the derived shear values. We then identify and categorize the contributing factors to the systematic effects, combining them with the correct weighting, in such a way as to fit within the top-level requirements. We present techniques which permit the performance to be evaluated and explore the limits at which the contributing factors can be managed. Besides the modelling biases resulting from the use of weighted moments, the main contributing factors are the reconstruction of the instrument point spread function, which is derived from the stellar images on the image, and the correction of the charge transfer inefficiency in the CCD detectors caused by radiation damage. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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11. CFHTLenS: the environmental dependence of galaxy halo masses from weak lensing.
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Gillis, Bryan R., Hudson, Michael J., Erben, Thomas, Heymans, Catherine, Hildebrandt, Hendrik, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, van Waerbeke, Ludovic, Bonnett, Christopher, Coupon, Jean, Fu, Liping, Hilbert, Stefan, Rowe, Barnaby T. P., Schrabback, Tim, Semboloni, Elisabetta, van Uitert, Edo, and Velander, Malin
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GALAXIES ,STELLAR mass ,GRAVITATIONAL lenses ,ARTIFICIAL satellites ,DARK matter - Abstract
We use weak gravitational lensing to analyse the dark matter haloes around satellite galaxies in galaxy groups in the Canada–France–Hawaii Telescope Lensing Survey (CFHTLenS) data set. This data set is derived from the Canada–France–Hawaii Telescope Legacy Survey Wide survey, and encompasses 154 deg2 of high-quality shape data. Using the photometric redshifts, we divide the sample of lens galaxies with stellar masses in the range 109–1010.5 M⊙ into those likely to lie in high-density environments (HDE) and those likely to lie in low-density environments (LDE). Through comparison with galaxy catalogues extracted from the Millennium Simulation, we show that the sample of HDE galaxies should primarily (∼61 per cent) consist of satellite galaxies in groups, while the sample of LDE galaxies should consist of mostly (∼87 per cent) non-satellite (field and central) galaxies. Comparing the lensing signals around samples of HDE and LDE galaxies matched in stellar mass, the lensing signal around HDE galaxies clearly shows a positive contribution from their host groups on their lensing signals at radii of ∼500–1000 kpc, the typical separation between satellites and group centres. More importantly, the subhaloes of HDE galaxies are less massive than those around LDE galaxies by a factor of 0.65 ± 0.12, significant at the 2.9σ level. A natural explanation is that the haloes of satellite galaxies are stripped through tidal effects in the group environment. Our results are consistent with a typical tidal truncation radius of ∼40 kpc. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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12. CFHTLenS tomographic weak lensing: quantifying accurate redshift distributions.
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Benjamin, Jonathan, Van Waerbeke, Ludovic, Heymans, Catherine, Kilbinger, Martin, Erben, Thomas, Hildebrandt, Hendrik, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Rowe, Barnaby, Schrabback, Tim, Simpson, Fergus, Coupon, Jean, Fu, Liping, Harnois-Déraps, Joachim, Hudson, Michael J., Kuijken, Konrad, Semboloni, Elisabetta, and Vafaei, Sanaz
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REDSHIFT ,ASTRONOMICAL photometry ,COSMIC background radiation - Abstract
The Canada–France–Hawaii Telescope Lensing Survey (CFHTLenS) comprises deep multicolour (u*g′r′i′z′) photometry spanning 154 deg2, with accurate photometric redshifts and shape measurements. We demonstrate that the redshift probability distribution function summed over galaxies provides an accurate representation of the galaxy redshift distribution accounting for random and catastrophic errors for galaxies with best-fitting photometric redshifts zp < 1.3.We present cosmological constraints using tomographic weak gravitational lensing by large-scale structure. We use two broad redshift bins 0.5 < zp ≤ 0.85 and 0.85 < zp ≤ 1.3 free of intrinsic alignment contamination, and measure the shear correlation function on angular scales in the range ∼1–40 arcmin. We show that the problematic redshift scaling of the shear signal, found in previous Canada–France–Hawaii Telescope Legacy Survey data analyses, does not affect the CFHTLenS data. For a flat Λ cold dark matter model and a fixed matter density Ωm = 0.27, we find the normalization of the matter power spectrum σ8 = 0.771 ± 0.041. When combined with cosmic microwave background data (Wilkinson Microwave Anisotropy Probe 7-year results), baryon acoustic oscillation data (BOSS) and a prior on the Hubble constant from the Hubble Space Telescope distance ladder, we find that CFHTLenS improves the precision of the fully marginalized parameter estimates by an average factor of 1.5-2. Combining our results with the above cosmological probes, we find Ωm = 0.2762 ± 0.0074 and σ8 = 0.802 ± 0.013. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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13. CFHTLenS: combined probe cosmological model comparison using 2D weak gravitational lensing.
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Kilbinger, Martin, Fu, Liping, Heymans, Catherine, Simpson, Fergus, Benjamin, Jonathan, Erben, Thomas, Harnois-Déraps, Joachim, Hoekstra, Henk, Hildebrandt, Hendrik, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Benabed, Karim, Bonnett, Christopher, Coupon, Jean, Hudson, Michael J., Kuijken, Konrad, Rowe, Barnaby, and Schrabback, Tim
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MOLECULAR probe diagnostic equipment industry ,MOLECULAR probes ,METAPHYSICAL cosmology ,COMPARATIVE studies ,TWO-dimensional models ,GRAVITATIONAL lenses - Abstract
We present cosmological constraints from 2D weak gravitational lensing by the large-scale structure in the Canada–France–Hawaii Telescope Lensing Survey (CFHTLenS) which spans 154 deg2 in five optical bands. Using accurate photometric redshifts and measured shapes for 4.2 million galaxies between redshifts of 0.2 and 1.3, we compute the 2D cosmic shear correlation function over angular scales ranging between 0.8 and 350 arcmin. Using non-linear models of the dark-matter power spectrum, we constrain cosmological parameters by exploring the parameter space with Population Monte Carlo sampling. The best constraints from lensing alone are obtained for the small-scale density-fluctuations amplitude σ8 scaled with the total matter density Ωm. For a flat Λcold dark matter (ΛCDM) model we obtain σ8(Ωm/0.27)0.6 = 0.79 ± 0.03.We combine the CFHTLenS data with 7-year Wilkinson Microwave Anisotropy Probe (WMAP7), baryonic acoustic oscillations (BAO): SDSS-III (BOSS) and a Hubble Space Telescopedistance-ladder prior on the Hubble constant to get joint constraints. For a flat ΛCDM model, we find Ωm = 0.283 ± 0.010 and σ8 = 0.813 ± 0.014. In the case of a curved wCDM universe, we obtain Ωm = 0.27 ± 0.03, σ8 = 0.83 ± 0.04, w0 = −1.10 ± 0.15 and ΩK = 0.006+ 0.006− 0.004.We calculate the Bayesian evidence to compare flat and curved ΛCDM and dark-energy CDM models. From the combination of all four probes, we find models with curvature to be at moderately disfavoured with respect to the flat case. A simple dark-energy model is indistinguishable from ΛCDM. Our results therefore do not necessitate any deviations from the standard cosmological model. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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14. CFHTLenS: testing the laws of gravity with tomographic weak lensing and redshift-space distortions.
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Simpson, Fergus, Heymans, Catherine, Parkinson, David, Blake, Chris, Kilbinger, Martin, Benjamin, Jonathan, Erben, Thomas, Hildebrandt, Hendrik, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Miller, Lance, Van Waerbeke, Ludovic, Coupon, Jean, Fu, Liping, Harnois-Déraps, Joachim, Hudson, Michael J., Kuijken, Koenraad, Rowe, Barnaby, and Schrabback, Tim
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GRAVITATIONAL lenses ,TOMOGRAPHY ,DARK energy ,REDSHIFT ,GENERAL relativity (Physics) ,TELESCOPES ,ASTRONOMICAL observations - Abstract
Dark energy may be the first sign of new fundamental physics in the Universe, taking either a physical form or revealing a correction to Einsteinian gravity. Weak gravitational lensing and galaxy peculiar velocities provide complementary probes of general relativity, and in combination allow us to test modified theories of gravity in a unique way. We perform such an analysis by combining measurements of cosmic shear tomography from the Canada–France–Hawaii Telescope Lensing Survey (CFHTLenS) with the growth of structure from the WiggleZ Dark Energy Survey and the Six-degree-Field Galaxy Survey, producing the strongest existing joint constraints on the metric potentials that describe general theories of gravity. For scale-independent modifications to the metric potentials which evolve linearly with the effective dark energy density, we find present-day cosmological deviations in the Newtonian potential and curvature potential from the prediction of general relativity to be ΔΨ/Ψ = 0.05 ± 0.25 and ΔΦ/Φ = −0.05 ± 0.3, respectively (68 per cent confidence limits). [ABSTRACT FROM PUBLISHER]
- Published
- 2013
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15. Measurement and calibration of noise bias in weak lensing galaxy shape estimation.
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Kacprzak, Tomasz, Zuntz, Joe, Rowe, Barnaby, Bridle, Sarah, Refregier, Alexandre, Amara, Adam, Voigt, Lisa, and Hirsch, Michael
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NOISE measurement ,GRAVITATIONAL lenses ,IMAGE processing ,CALIBRATION ,ASTRONOMICAL observations ,METAPHYSICAL cosmology ,DATA analysis ,GALAXIES - Abstract
ABSTRACT Weak gravitational lensing has the potential to constrain cosmological parameters to high precision. However, as shown by the Shear Testing Programmes and Gravitational lensing Accuracy Testing challenges, measuring galaxy shears is a non-trivial task: various methods introduce different systematic biases which have to be accounted for. We investigate how pixel noise on the image affects the bias on shear estimates from a maximum likelihood forward model-fitting approach using a sum of co-elliptical Sérsic profiles, in complement to the theoretical approach of an associated paper. We evaluate the bias using a simple but realistic galaxy model and find that the effects of noise alone can cause biases of the order of 1-10 per cent on measured shears, which is significant for current and future lensing surveys. We evaluate a simulation-based calibration method to create a bias model as a function of galaxy properties and observing conditions. This model is then used to correct the simulated measurements. We demonstrate that, for the simple case in which the correct range of galaxy models is used in the fit, the calibration method can reduce noise bias to the level required for estimating cosmic shear in upcoming lensing surveys. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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16. CFHTLenS: the Canada-France-Hawaii Telescope Lensing Survey.
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Heymans, Catherine, Van Waerbeke, Ludovic, Miller, Lance, Erben, Thomas, Hildebrandt, Hendrik, Hoekstra, Henk, Kitching, Thomas D., Mellier, Yannick, Simon, Patrick, Bonnett, Christopher, Coupon, Jean, Fu, Liping, Harnois-Déraps, Joachim, Hudson, Michael J., Kilbinger, Martin, Kuijken, Koenraad, Rowe, Barnaby, Schrabback, Tim, Semboloni, Elisabetta, and van Uitert, Edo
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GRAVITATIONAL lenses ,METAPHYSICAL cosmology ,ASTRONOMICAL observations ,ROBUST control ,ASTROPHYSICS ,ASTRONOMICAL photometry - Abstract
ABSTRACT We present the Canada-France-Hawaii Telescope Lensing Survey (CFHTLenS) that accurately determines a weak gravitational lensing signal from the full 154 deg
2 of deep multicolour data obtained by the CFHT Legacy Survey. Weak gravitational lensing by large-scale structure is widely recognized as one of the most powerful but technically challenging probes of cosmology. We outline the CFHTLenS analysis pipeline, describing how and why every step of the chain from the raw pixel data to the lensing shear and photometric redshift measurement has been revised and improved compared to previous analyses of a subset of the same data. We present a novel method to identify data which contributes a non-negligible contamination to our sample and quantify the required level of calibration for the survey. Through a series of cosmology-insensitive tests we demonstrate the robustness of the resulting cosmic shear signal, presenting a science-ready shear and photometric redshift catalogue for future exploitation. [ABSTRACT FROM AUTHOR]- Published
- 2012
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17. Noise bias in weak lensing shape measurements.
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Refregier, Alexandre, Kacprzak, Tomasz, Amara, Adam, Bridle, Sarah, and Rowe, Barnaby
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METAPHYSICAL cosmology ,DARK energy ,MEASUREMENT errors ,GALAXIES ,GAUSSIAN distribution ,GRAVITATIONAL lenses ,SIGNAL-to-noise ratio ,UNIVERSE - Abstract
ABSTRACT Weak lensing experiments are a powerful probe into cosmology through their measurement of the mass distribution of the universe. A challenge for this technique is to control systematic errors that occur when measuring the shapes of distant galaxies. In this paper, we investigate noise bias, a systematic error that arises from second-order noise terms in the shape measurement process. We first derive analytical expressions for the bias of general maximum-likelihood estimators in the presence of additive noise. We then find analytical expressions for a simplified toy model in which galaxies are modelled and fitted with a Gaussian with its size as a single free parameter. Even for this very simple case we find a significant effect. We also extend our analysis to a more realistic six-parameter elliptical Gaussian model. We find that the noise bias is generically of the order of the inverse-squared signal-to-noise ratio (SNR) of the galaxies and is thus of the order of a percent for galaxies of SNR 10, i.e. comparable to the weak lensing shear signal. This is nearly two orders of magnitude greater than the systematic requirements for future all-sky weak lensing surveys. We discuss possible ways to circumvent this effect, including a calibration method using simulations discussed in an associated paper. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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18. The impact of high spatial frequency atmospheric distortions on weak-lensing measurements.
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Heymans, Catherine, Rowe, Barnaby, Hoekstra, Henk, Miller, Lance, Erben, Thomas, Kitching, Thomas, and Van Waerbeke, Ludovic
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IMAGING systems in astronomy , *METAPHYSICAL cosmology , *STATISTICAL astronomy , *ATMOSPHERIC turbulence , *GRAVITATIONAL waves , *FREQUENCY spectra , *SHEAR waves - Abstract
ABSTRACT High-precision cosmology with weak gravitational lensing requires a precise measure of the point spread function across the imaging data where the accuracy to which high spatial frequency variation can be modelled is limited by the stellar number density across the field. We analyse dense stellar fields imaged at the Canada-France-Hawaii Telescope to quantify the degree of high spatial frequency variation in ground-based imaging point spread functions and compare our results to models of atmospheric turbulence. The data show an anisotropic turbulence pattern with an orientation independent of the wind direction and wind speed. We find the amplitude of the high spatial frequencies to decrease with increasing exposure time as t−1/2, and find a negligibly small atmospheric contribution to the point spread function ellipticity variation for exposure times t > 180 s. For future surveys analysing shorter exposure data, this anisotropic turbulence will need to be taken into account as the amplitude of the correlated atmospheric distortions becomes comparable to a cosmological lensing signal on scales less than ∼10 arcmin. This effect could be mitigated, however, by correlating galaxy shear measured on exposures imaged with a time separation greater than 50 s, for which we find the spatial turbulence patterns to be uncorrelated. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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19. OPTIMAL LINEAR IMAGE COMBINATION.
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ROWE, BARNABY, HIRATA, CHRISTOPHER, and RHODES, JASON
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SOLAR activity , *PHOTOGRAPHS , *MATHEMATICAL convolutions , *ALGORITHMS , *KERNEL functions - Abstract
A simple, yet general, formalism for the optimized linear combination of astrophysical images is constructed and demonstrated. The formalism allows the user to combine multiple undersampled images to provide oversampled output at high precision. The proposed method is general and may be used for any configuration of input pixels and point spread function; it also provides the noise covariance in the output image along with a powerful metric for describing undesired distortion to the image convolution kernel. The method explicitly provides knowledge and control of the inevitable compromise between noise and fidelity in the output image. We present a first prototype implementation of the method, outlining the steps taken to generate an efficient algorithm. This implementation is then put to practical use in reconstructing fully sampled output images using simulated, undersampled input exposures that are designed to mimic the proposed Wide-field InfraRed Survey Telescope (WFIRST). We examine results using randomly rotated and dithered input images, while also assessing better-known "ideal" dither patterns: comparing results, we illustrate the use of the method as a survey design tool. Finally, we use the method to test the robustness of linear image combination when subjected to practical realities such as missing input pixels and focal plane plate scale variations. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
20. The Sunyaev-Zel'dovich effect due to hyperstarburst galaxy winds.
- Author
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Rowe, Barnaby and Silk, Joseph
- Subjects
- *
STARBURSTS , *STELLAR winds , *GALAXIES , *PRESSURE , *APPROXIMATION theory , *ASTRONOMICAL models , *STAR observations - Abstract
We construct a simple, spherical blast wave model to estimate the pressure structure of the intergalactic medium surrounding hyperstarburst galaxies, and argue that the effects of interaction with star-forming galaxy winds may be approximated at early times by an adiabatically expanding, self-similar 'bubble' as described by Weaver et al. and Ostriker & McKee. This model is used to make observational predictions for the thermal Sunyaev-Zel'dovich effect in the shocked bubble plasma. Radiative cooling losses are explored, and it is found that bremsstrahlung will limit the epoch of adiabatic expansion to yr: comparable to total hyperstarburst lifetimes. Prospects for making a first Sunyaev-Zel'dovich detection of galaxy wind bubbles using the Atacama Large Millimeter Array are examined for a number of active hyperstarburst sources in the literature. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
21. Improving PSF modelling for weak gravitational lensing using new methods in model selection.
- Author
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Rowe, Barnaby
- Subjects
- *
GRAVITATIONAL lenses , *MICROLENSING (Astrophysics) , *LENSES , *DATA analysis , *METAPHYSICAL cosmology , *TELESCOPES - Abstract
A simple theoretical framework for the description and interpretation of spatially correlated modelling residuals is presented, and the resulting tools are found to provide a useful aid to model selection in the context of weak gravitational lensing. The description is focused upon the specific problem of modelling the spatial variation of a telescope point spread function (PSF) across the instrument field of view, a crucial stage in lensing data analysis, but the technique may be used to rank competing models wherever data are described empirically. As such it may, with further development, provide useful extra information when used in combination with existing model selection techniques such as the Akaike and Bayesian information criteria, or the Bayesian evidence. Two independent diagnostic correlation functions are described, and the interpretation of these functions is demonstrated by using a simulated PSF anisotropy field. The efficacy of these diagnostic functions as an aid to the correct choice of empirical model is then demonstrated by analysing results for a suite of Monte Carlo simulations of random PSF fields with varying degrees of spatial structure, and it is shown how the diagnostic functions can be related to requirements for precision cosmic shear measurement. The limitations of the technique, and opportunities for improvements and applications to fields other than weak gravitational lensing, are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
22. Weak gravitational shear and flexion with polar shapelets.
- Author
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Massey, Richard, Rowe, Barnaby, Refregier, Alexandre, Bacon, David J., and Berg, Joel
- Subjects
- *
MICROLENSING (Astrophysics) , *GRAVITATIONAL lenses , *ASTROPHYSICS , *ASTRONOMY , *PHYSICAL cosmology - Abstract
We derive expressions, in terms of ‘polar shapelets’, for the image distortion operations associated with weak gravitational lensing. Shear causes galaxy shapes to become elongated, and is sensitive to the second derivative of the projected gravitational potential along their line of sight; flexion bends galaxy shapes into arcs, and is sensitive to the third derivative. Polar shapelets provide a natural representation, in which both shear and flexion transformations are compact. Through this tool, we understand progress in several weak lensing methods. We then exploit various symmetries of shapelets to construct a range of shear estimators with useful properties. Through an analogous investigation, we also explore several flexion estimators. In particular, some of the estimators can be measured simultaneously and independently for every galaxy, and will provide unique checks for systematics in future weak lensing analyses. Using simulated images from the Shear TEsting Programme, we show that we can recover input shears with no significant bias. A complete software package to parametrize astronomical images in terms of polar shapelets, and to perform a full weak lensing analysis, is available on the Internet. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
23. Precision Projector Laboratory: detector characterization with an astronomical emulation testbed.
- Author
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Shapiro, Charles, Smith, Roger, Huff, Eric, Plazas, Andrés A., Rhodes, Jason, Fucik, Jason, Goodsall, Tim, Massey, Richard, Rowe, Barnaby, and Seshadri, Suresh
- Published
- 2019
- Full Text
- View/download PDF
24. THE THIRD GRAVITATIONAL LENSING ACCURACY TESTING (GREAT3) CHALLENGE HANDBOOK.
- Author
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Mandelbaum, Rachel, Rowe, Barnaby, Bosch, James, Chang, Chihway, Courbin, Frederic, Gill, Mandeep, Jarvis, Mike, Kannawadi, Arun, Kacprzak, Tomasz, Lackner, Claire, Leauthaud, Alexie, Miyatake, Hironao, Nakajima, Reiko, Rhodes, Jason, Simet, Melanie, Zuntz, Joe, Armstrong, Bob, Bridle, Sarah, Coupon, Jean, and Dietrich, Jörg P.
- Published
- 2014
- Full Text
- View/download PDF
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