14 research outputs found

    What's new pussycat? A genealogy of animal celebrity

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    Animal celebrity is a human creation informing us about our socially constructed natural world. It is relational, expressive of cultural proclivities, political power plays and the quotidian everyday, as well as serious philosophical reflections on the meaning of being human. This article attempts to outline some key contours in the genealogy of animal celebrity, showing how popular culture, including fairground attractions, public relations, Hollywood movies, documentary films, zoo attractions, commercial sport and mediatised moral panics - particularly those accompanying scientific developments such as cloning - help to order, categorise and license aspects of human understanding and feelings. The nature of [animal] charisma and celebrity are explored with assistance from Jumbo the Elephant, Guy the Gorilla, Paul the clairvoyant octopus, Uggie the film star, NĂ©nette the orang-utan and Dolly the sheep. It argues that the issue of what it is to be human lies beneath the celebritised surface or, as Donna Haraway noted, the issue 'of having to face oneself'

    Assessment of stereoscopic optic disc images using an autostereoscopic screen. experimental study

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    Background: Stereoscopic assessment of the optic disc morphology is an important part of the care of patients with glaucoma. The aim of this study was to assess stereoviewing of stereoscopic optic disc images using an example of the new technology of autostereoscopic screens compared to the liquid shutter goggles. Methods: Independent assessment of glaucomatous disc characteristics and measurement of optic disc and cup parameters whilst using either an autostereoscopic screen or liquid crystal shutter goggles synchronized with a view switching display. The main outcome measures were inter-modality agreements between the two used modalities as evaluated by the weighted kappa test and Bland Altman plots. Results: Inter-modality agreement for measuring optic disc parameters was good [Average kappa coefficient for vertical Cup/Disc ratio was 0.78 (95% CI 0.62–0.91) and 0.81 (95% CI 0.6–0.92) for observer 1 and 2 respectively]. Agreement between modalities for assessing optic disc characteristics for glaucoma on a five-point scale was very good with a kappa value of 0.97. Conclusion: This study compared two different methods of stereo viewing. The results of assessment of the different optic disc and cup parameters were comparable using an example of the newly developing autostereoscopic display technologies as compared to the shutter goggles system used. The Inter-modality agreement was high. This new technology carries potential clinical usability benefits in different areas of ophthalmic practice

    Euclid: Early Release Observations -- Unveiling the morphology of two Milky Way globular clusters out to their periphery

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    International audienceAs part of the Euclid Early Release Observations (ERO) programme, we analyse deep, wide-field imaging from the VIS and NISP instruments of two Milky Way globular clusters (GCs), namely NGC 6254 (M10) and NGC 6397, to look for observational evidence of their dynamical interaction with the Milky Way. We search for such an interaction in the form of structural and morphological features in the clusters' outermost regions, which are suggestive of the development of tidal tails on scales larger than those sampled by the ERO programme. Our multi-band photometric analysis results in deep and well-behaved colour-magnitude diagrams that, in turn, enable an accurate membership selection. The surface brightness profiles built from these samples of member stars are the deepest ever obtained for these two Milky Way GCs, reaching down to ∌30.0\sim30.0 mag~arcsec−2^{-2}, which is about 1.51.5 mag arcsec−2^{-2} below the current limit. The investigation of the two-dimensional density map of NGC 6254 reveals an elongated morphology of the cluster peripheries in the direction and with the amplitude predicted by NN-body simulations of the cluster's dynamical evolution, at high statistical significance. We interpret this as strong evidence for the first detection of tidally induced morphological distortion around this cluster. The density map of NGC 6397 reveals a slightly elliptical morphology, in agreement with previous studies, which requires further investigation on larger scales to be properly interpreted. This ERO project thus demonstrates the power of Euclid in studying the outer regions of GCs at an unprecedented level of detail, thanks to the combination of large field of view, high spatial resolution, and depth enabled by the telescope. Our results highlight the future Euclid survey as the ideal data set to investigate GC tidal tails and stellar streams

    Euclid: Early Release Observations -- Deep anatomy of nearby galaxies

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    International audienceEuclid is poised to make significant advances in the study of nearby galaxies in the local Universe. Here we present a first look at 6 galaxies observed for the Nearby Galaxy Showcase as part of the Euclid Early Release Observations acquired between August and November, 2023. These targets, 3 dwarf galaxies (HolmbergII, IC10, NGC6822) and 3 spirals (IC342, NGC2403, NGC6744), range in distance from about 0.5 Mpc to 8.8 Mpc. Our assessment of the surface brightness depths in the stacked Euclid images confirms previous estimates in 100 arcsec^2 regions of 1sigma=30.5 mag/arcsec^2 for VIS, but slightly deeper than previous estimates for NISP with 1sigma=29.2-29.4 mag/arcsec^2. By combining Euclid HE, YE, and IE into RGB images, we illustrate the large field-of-view covered by a single Reference Observing Sequence, together with exquisite detail on parsec scales in these nearby galaxies. Radial surface brightness and color profiles demonstrate galaxy colors in agreement with stellar population synthesis models. Standard stellar photometry selection techniques find approximately 1.3 million stars across the 6 galaxy fields. Euclid's resolved stellar photometry allows us to constrain the star-formation histories of these galaxies, by disentangling the distributions of young stars, as well as asymptotic giant branch and red giant branch stellar populations. We finally examine 2 galaxies individually for surrounding satellite systems. Our analysis of the ensemble of dwarf satellites around NGC6744 reveals a new galaxy, EDwC1, a nucleated dwarf spheroidal at the end of a spiral arm. Our new census of the globular clusters around NGC2403 yields 9 new star-cluster candidates, 8 of which with colors indicative of evolved stellar populations. In summary, our investigation of the 6 Showcase galaxies demonstrates that Euclid is a powerful probe of the anatomy of nearby galaxies [abridged]

    Euclid: Early Release Observations -- A preview of the Euclid era through a galaxy cluster magnifying lens

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    International audienceWe present the first analysis of the Euclid Early Release Observations (ERO) program that targets fields around two lensing clusters, Abell 2390 and Abell 2764. We use VIS and NISP imaging to produce photometric catalogs for a total of ∌500 000\sim 500\,000 objects. The imaging data reach a 5 σ5\,\sigma typical depth in the range 25.1-25.4 AB in the NISP bands, and 27.1-27.3 AB in the VIS band. Using the Lyman-break method in combination with photometric redshifts, we identify 3030 Lyman-break galaxy (LBG) candidates at z>6z>6 and 139 extremely red sources (ERSs), most likely at lower redshift. The deeper VIS imaging compared to NISP means we can routinely identify high-redshift Lyman breaks of the order of 33 magnitudes, which reduces contamination by brown dwarf stars and low-redshift galaxies. Spectroscopic follow-up campaigns of such bright sources will help constrain both the bright end of the ultraviolet galaxy luminosity function and the quasar luminosity function at z>6z>6, and constrain the physical nature of these objects. Additionally, we have performed a combined strong lensing and weak lensing analysis of A2390, and demonstrate how Euclid will contribute to better constraining the virial mass of galaxy clusters. From these data, we also identify optical and near-infrared counterparts of known z>0.6z>0.6 clusters, which exhibit strong lensing features, establishing the ability of Euclid to characterize high-redshift clusters. Finally, we provide a glimpse of Euclid's ability to map the intracluster light out to larger radii than current facilities, enabling a better understanding of the cluster assembly history and mapping of the dark matter distribution. This initial dataset illustrates the diverse spectrum of legacy science that will be enabled by the Euclid survey

    Euclid preparation. LensMC, weak lensing cosmic shear measurement with forward modelling and Markov Chain Monte Carlo sampling

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    International audienceLensMC is a weak lensing shear measurement method developed for Euclid and Stage-IV surveys. It is based on forward modelling to deal with convolution by a point spread function with comparable size to many galaxies; sampling the posterior distribution of galaxy parameters via Markov Chain Monte Carlo; and marginalisation over nuisance parameters for each of the 1.5 billion galaxies observed by Euclid. The scientific performance is quantified through high-fidelity images based on the Euclid Flagship simulations and emulation of the Euclid VIS images; realistic clustering with a mean surface number density of 250 arcmin−2^{-2} (IE<29.5I_{\rm E}<29.5) for galaxies, and 6 arcmin−2^{-2} (IE<26I_{\rm E}<26) for stars; and a diffraction-limited chromatic point spread function with a full width at half maximum of 0. ⁣â€Čâ€Č20.^{\!\prime\prime}2 and spatial variation across the field of view. Objects are measured with a density of 90 arcmin−2^{-2} (IE<26.5I_{\rm E}<26.5) in 4500 deg2^2. The total shear bias is broken down into measurement (our main focus here) and selection effects (which will be addressed elsewhere). We find: measurement multiplicative and additive biases of m1=(−3.6±0.2)×10−3m_1=(-3.6\pm0.2)\times10^{-3}, m2=(−4.3±0.2)×10−3m_2=(-4.3\pm0.2)\times10^{-3}, c1=(−1.78±0.03)×10−4c_1=(-1.78\pm0.03)\times10^{-4}, c2=(0.09±0.03)×10−4c_2=(0.09\pm0.03)\times10^{-4}; a large detection bias with a multiplicative component of 1.2×10−21.2\times10^{-2} and an additive component of −3×10−4-3\times10^{-4}; and a measurement PSF leakage of α1=(−9±3)×10−4\alpha_1=(-9\pm3)\times10^{-4} and α2=(2±3)×10−4\alpha_2=(2\pm3)\times10^{-4}. When model bias is suppressed, the obtained measurement biases are close to Euclid requirement and largely dominated by undetected faint galaxies (−5×10−3-5\times10^{-3}). Although significant, model bias will be straightforward to calibrate given the weak sensitivity

    Euclid preparation. LensMC, weak lensing cosmic shear measurement with forward modelling and Markov Chain Monte Carlo sampling

    No full text
    International audienceLensMC is a weak lensing shear measurement method developed for Euclid and Stage-IV surveys. It is based on forward modelling to deal with convolution by a point spread function with comparable size to many galaxies; sampling the posterior distribution of galaxy parameters via Markov Chain Monte Carlo; and marginalisation over nuisance parameters for each of the 1.5 billion galaxies observed by Euclid. The scientific performance is quantified through high-fidelity images based on the Euclid Flagship simulations and emulation of the Euclid VIS images; realistic clustering with a mean surface number density of 250 arcmin−2^{-2} (IE<29.5I_{\rm E}<29.5) for galaxies, and 6 arcmin−2^{-2} (IE<26I_{\rm E}<26) for stars; and a diffraction-limited chromatic point spread function with a full width at half maximum of 0. ⁣â€Čâ€Č20.^{\!\prime\prime}2 and spatial variation across the field of view. Objects are measured with a density of 90 arcmin−2^{-2} (IE<26.5I_{\rm E}<26.5) in 4500 deg2^2. The total shear bias is broken down into measurement (our main focus here) and selection effects (which will be addressed elsewhere). We find: measurement multiplicative and additive biases of m1=(−3.6±0.2)×10−3m_1=(-3.6\pm0.2)\times10^{-3}, m2=(−4.3±0.2)×10−3m_2=(-4.3\pm0.2)\times10^{-3}, c1=(−1.78±0.03)×10−4c_1=(-1.78\pm0.03)\times10^{-4}, c2=(0.09±0.03)×10−4c_2=(0.09\pm0.03)\times10^{-4}; a large detection bias with a multiplicative component of 1.2×10−21.2\times10^{-2} and an additive component of −3×10−4-3\times10^{-4}; and a measurement PSF leakage of α1=(−9±3)×10−4\alpha_1=(-9\pm3)\times10^{-4} and α2=(2±3)×10−4\alpha_2=(2\pm3)\times10^{-4}. When model bias is suppressed, the obtained measurement biases are close to Euclid requirement and largely dominated by undetected faint galaxies (−5×10−3-5\times10^{-3}). Although significant, model bias will be straightforward to calibrate given the weak sensitivity

    Euclid preparation. LensMC, weak lensing cosmic shear measurement with forward modelling and Markov Chain Monte Carlo sampling

    No full text
    International audienceLensMC is a weak lensing shear measurement method developed for Euclid and Stage-IV surveys. It is based on forward modelling to deal with convolution by a point spread function with comparable size to many galaxies; sampling the posterior distribution of galaxy parameters via Markov Chain Monte Carlo; and marginalisation over nuisance parameters for each of the 1.5 billion galaxies observed by Euclid. The scientific performance is quantified through high-fidelity images based on the Euclid Flagship simulations and emulation of the Euclid VIS images; realistic clustering with a mean surface number density of 250 arcmin−2^{-2} (IE<29.5I_{\rm E}<29.5) for galaxies, and 6 arcmin−2^{-2} (IE<26I_{\rm E}<26) for stars; and a diffraction-limited chromatic point spread function with a full width at half maximum of 0. ⁣â€Čâ€Č20.^{\!\prime\prime}2 and spatial variation across the field of view. Objects are measured with a density of 90 arcmin−2^{-2} (IE<26.5I_{\rm E}<26.5) in 4500 deg2^2. The total shear bias is broken down into measurement (our main focus here) and selection effects (which will be addressed elsewhere). We find: measurement multiplicative and additive biases of m1=(−3.6±0.2)×10−3m_1=(-3.6\pm0.2)\times10^{-3}, m2=(−4.3±0.2)×10−3m_2=(-4.3\pm0.2)\times10^{-3}, c1=(−1.78±0.03)×10−4c_1=(-1.78\pm0.03)\times10^{-4}, c2=(0.09±0.03)×10−4c_2=(0.09\pm0.03)\times10^{-4}; a large detection bias with a multiplicative component of 1.2×10−21.2\times10^{-2} and an additive component of −3×10−4-3\times10^{-4}; and a measurement PSF leakage of α1=(−9±3)×10−4\alpha_1=(-9\pm3)\times10^{-4} and α2=(2±3)×10−4\alpha_2=(2\pm3)\times10^{-4}. When model bias is suppressed, the obtained measurement biases are close to Euclid requirement and largely dominated by undetected faint galaxies (−5×10−3-5\times10^{-3}). Although significant, model bias will be straightforward to calibrate given the weak sensitivity

    Euclid preparation. Observational expectations for redshift z<7 active galactic nuclei in the Euclid Wide and Deep surveys

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    International audienceWe forecast the expected population of active galactic nuclei (AGN) observable in the Euclid Wide Survey (EWS) and Euclid Deep Survey (EDS). Starting from an X-ray luminosity function (XLF) we generate volume-limited samples of the AGN expected in the survey footprints. Each AGN is assigned an SED appropriate for its X-ray luminosity and redshift, with perturbations sampled from empirical distributions. The photometric detectability of each AGN is assessed via mock observation of the assigned SED. We estimate 40 million AGN will be detectable in at least one band in the EWS and 0.24 million in the EDS, corresponding to surface densities of 2.8×\times103^{3} deg−2^{-2} and 4.7×\times103^{3} deg−2^{-2}. Employing colour selection criteria on our simulated data we select a sample of 4.8×\times106^{6} (331 deg−2^{-2}) AGN in the EWS and 1.7×\times104^{4} (346 deg−2^{-2}) in the EDS, amounting to 10% and 8% of the AGN detectable in the EWS and EDS. Including ancillary Rubin/LSST bands improves the completeness and purity of AGN selection. These data roughly double the total number of selected AGN to comprise 21% and 15% of the detectable AGN in the EWS and EDS. The total expected sample of colour-selected AGN contains 6.0×\times106^{6} (74%) unobscured AGN and 2.1×\times106^{6} (26%) obscured AGN, covering 0.02≀zâ‰Č5.20.02 \leq z \lesssim 5.2 and 43≀log⁥10(Lbol/ergs−1)≀4743 \leq \log_{10} (L_{bol} / erg s^{-1}) \leq 47. With this simple colour selection, expected surface densities are already comparable to the yield of modern X-ray and mid-infrared surveys of similar area. The relative uncertainty on our expectation for detectable AGN is 6.7% for the EWS and 12.5% for the EDS, driven by the uncertainty of the XLF

    Euclid preparation. Observational expectations for redshift z<7 active galactic nuclei in the Euclid Wide and Deep surveys

    No full text
    International audienceWe forecast the expected population of active galactic nuclei (AGN) observable in the Euclid Wide Survey (EWS) and Euclid Deep Survey (EDS). Starting from an X-ray luminosity function (XLF) we generate volume-limited samples of the AGN expected in the survey footprints. Each AGN is assigned an SED appropriate for its X-ray luminosity and redshift, with perturbations sampled from empirical distributions. The photometric detectability of each AGN is assessed via mock observation of the assigned SED. We estimate 40 million AGN will be detectable in at least one band in the EWS and 0.24 million in the EDS, corresponding to surface densities of 2.8×\times103^{3} deg−2^{-2} and 4.7×\times103^{3} deg−2^{-2}. Employing colour selection criteria on our simulated data we select a sample of 4.8×\times106^{6} (331 deg−2^{-2}) AGN in the EWS and 1.7×\times104^{4} (346 deg−2^{-2}) in the EDS, amounting to 10% and 8% of the AGN detectable in the EWS and EDS. Including ancillary Rubin/LSST bands improves the completeness and purity of AGN selection. These data roughly double the total number of selected AGN to comprise 21% and 15% of the detectable AGN in the EWS and EDS. The total expected sample of colour-selected AGN contains 6.0×\times106^{6} (74%) unobscured AGN and 2.1×\times106^{6} (26%) obscured AGN, covering 0.02≀zâ‰Č5.20.02 \leq z \lesssim 5.2 and 43≀log⁥10(Lbol/ergs−1)≀4743 \leq \log_{10} (L_{bol} / erg s^{-1}) \leq 47. With this simple colour selection, expected surface densities are already comparable to the yield of modern X-ray and mid-infrared surveys of similar area. The relative uncertainty on our expectation for detectable AGN is 6.7% for the EWS and 12.5% for the EDS, driven by the uncertainty of the XLF
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