197731 research outputs found

    Directionality of nuclear recoils in a liquid argon time projection chamber

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    International audienceThe direct search for dark matter in the form of weakly interacting massive particles (WIMP) is performed by detecting nuclear recoils (NR) produced in a target material from the WIMP elastic scattering. A promising experimental strategy for direct dark matter search employs argon dual-phase time projection chambers (TPC). One of the advantages of the TPC is the capability to detect both the scintillation and charge signals produced by NRs. Furthermore, the existence of a drift electric field in the TPC breaks the rotational symmetry: the angle between the drift field and the momentum of the recoiling nucleus can potentially affect the charge recombination probability in liquid argon and then the relative balance between the two signal channels. This fact could make the detector sensitive to the directionality of the WIMP-induced signal, enabling unmistakable annual and daily modulation signatures for future searches aiming for discovery. The Recoil Directionality (ReD) experiment was designed to probe for such directional sensitivity. The TPC of ReD was irradiated with neutrons at the INFN Laboratori Nazionali del Sud, and data were taken with 72 keV NRs of known recoil directions. The direction-dependent liquid argon charge recombination model by Cataudella et al. was adopted and a likelihood statistical analysis was performed, which gave no indications of significant dependence of the detector response to the recoil direction. The aspect ratio R of the initial ionization cloud is estimated to be 1.037 +/- 0.027 and the upper limit is R < 1.072 with 90% confidence leve

    Strain engineering of the electronic states of silicon-based quantum emitters

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    Light-emitting complex defects in silicon have been considered a potential platform for quantum technologies based on spin and photon degrees of freedom working at telecom wavelengths. Their integration in complex devices is still in its infancy, and it was mostly focused on light extraction and guiding. Here we address the control of the electronic states of carbon-related impurities (G-centers) via strain engineering. By embedding them in patches of silicon on insulator and topping them with SiN, symmetry breaking along [001] and [110] directions is demonstrated, resulting in a controlled splitting of the zero phonon line (ZPL), as accounted for by the piezospectroscopic theoretical framework. The splitting can be as large as 18 meV and it is finely tuned by selecting patch size or by moving in different positions on the patch. Some of the split, strained ZPLs are almost fully polarized and their overall intensity is enhanced up to 7 times with respect to the flat areas, whereas their recombination dynamics is slightly affected. Our technique can be extended to other impurities and Si-based devices such as suspended bridges, photonic crystal microcavities, Mie resonators, and integrated photonic circuits

    Cosmological parameters derived from the final (PR4) Planck data release

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    International audienceWe present constraints on cosmological parameters using maps from the last Planck data release (PR4). In particular, we detail an upgraded version of the cosmic microwave background likelihood, HiLLiPoP, based on angular power spectra and relying on a physical modelling of the foreground residuals in the spectral domain. This new version of the likelihood retains a larger sky fraction (up to 75%) and uses an extended multipole range. Using this likelihood, along with low-l measurements from LoLLiPoP, we derive constraints on Λ\LambdaCDM parameters that are in good agreement with previous Planck 2018 results, but with 10% to 20% smaller uncertainties. We demonstrate that the foregrounds can be accurately described in spectra domain with only negligible impact on Λ\LambdaCDM parameters. We also derive constraints on single-parameter extensions to Λ\LambdaCDM including ALA_L, ΩK\Omega_K, NeffN_{eff}, and mν\sum m_{\nu}. Noteworthy results from this updated analysis include a lensing amplitude value of AL=1.036±0.051A_L = 1.036 \pm 0.051, which aligns more closely with theoretical expectations within the Λ\LambdaCDM framework. Additionally, our curvature measurement, ΩK=0.012±0.010\Omega_K = -0.012 \pm 0.010, now demonstrates complete consistency with a flat universe, and our measurement of S8S_8 is closer to the measurements derived from large-scale structure surveys (at the 1.6σ\sigma level)

    KiDS-1000 cosmology: Combined second- and third-order shear statistics

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    International audienceThis paper performs the first cosmological parameter analysis of the KiDS-1000 data with second- and third-order shear statistics. This work builds on a series of papers that describe the roadmap to third-order shear statistics. We derive and test a combined model of the second-order shear statistic, namely the COSEBIs and the third-order aperture mass statistics Map3\langle M_\mathrm{ap}^3\rangle in a tomographic set-up. We validate our pipeline with NN-body simulations that mock the fourth Kilo Degree survey data release. To model the second- and third-order statistics, we use the latest version of \textsc{HMcode2020} for the power spectrum and \textsc{BiHalofit} for the bispectrum. Furthermore, we use an analytic description to model intrinsic alignments and hydro-dynamical simulations to model the effect of baryonic feedback processes. Lastly, we decreased the dimension of the data vector significantly by considering for the Map3\langle M_\mathrm{ap}^3\rangle part of the data vector only equal smoothing radii, making a data analysis of the fourth Kilo Degree survey data release using a combined analysis of COSEBIs third-order shear statistic possible. We first validate the accuracy of our modelling by analysing a noise-free mock data vector assuming the KiDS-1000 error budget, finding a shift in the maximum-a-posterior of the matter density parameter ΔΩm<0.02σΩm\Delta \Omega_m< 0.02\, \sigma_{\Omega_m} and of the structure growth parameter ΔS8<0.05σS8\Delta S_8 < 0.05\, \sigma_{S_8}. Lastly, we performed the first KiDS-1000 cosmological analysis using a combined analysis of second- and third-order shear statistics, where we constrained Ωm=0.2480.055+0.062\Omega_m=0.248^{+0.062}_{-0.055} and S8=σ8Ωm/0.3=0.772±0.022S_8=\sigma_8\sqrt{\Omega_m/0.3}=0.772\pm0.022. The geometric average on the errors of Ωm\Omega_\mathrm{m} and S8S_8 of the combined statistics increased compared to the second-order statistic by 2.2

    Conversion to Judaism and Hostility toward Jews in the Roman Empire: The Complementary Perspectives of Philo and Tacitus

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    International audienceHellenistic texts on Jews hardly ever refer to people converting to Judaism. Roman authors’ criticism and condemnation of people who had converted to Judaism thus appears as a new feature of anti-Jewish discourse. The relative prominence of references to Judaizers and converts in Roman literary texts may be explained by the number and visibility of proselytes in Rome, but also perhaps by the perception, within certain Roman circles, of conversion to Judaism as a betrayal of Roman values. Tacitus best illustrates this trend. This article seeks to shed light on his hostile remarks on converts through a comparison with Philo’s highly positive comments on proselytes. The comparison reveals surprising points of agreement between the two authors and helps us understand what was at stake in the phenomenon of conversion and how it could generate tensions between proselytes and their native environment

    A novel approach to detect glucose concentration using active cavity Whispering Gallery Mode sensor

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    International audienceThis paper presents a new approach to particle detection using an active microresonator operating in the transparency regime. Simulations demonstrate that when particles interact with the microresonator surface, they induce optical losses. To compensate for these losses, the optical gain is amplified to restore the transparency regime. Simulation results show a linear relationship between nanoparticle concentration and the pump power required to compensate for optical losses. By the use of microresonator with a very high quality factor, this approach offers an accurate and sensitive method for detecting nanoparticles, without the need for complex equipment

    Reduction of mortality, cardiac damage, and cerebral damage by IL-1 inhibition in a murine model of TTP

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    International audienceAbstract Thrombotic thrombocytopenic purpura (TTP), a rare but fatal disease if untreated, is due to alteration in von Willebrand factor cleavage resulting in capillary microthrombus formation and ischemic organ damage. Interleukin-1 (IL-1) has been shown to drive sterile inflammation after ischemia and could play an essential contribution to postischemic organ damage in TTP. Our objectives were to evaluate IL-1 involvement during TTP and to test the efficacy of the recombinant IL-1 receptor antagonist, anakinra, in a murine TTP model. We retrospectively measured plasma IL-1 concentrations in patients with TTP and controls. Patients with TTP exhibited elevated plasma IL-1α and -1β concentrations, which correlated with disease course and survival. In a mouse model of TTP, we administered anakinra (IL-1 inhibitor) or placebo for 5 days and evaluated the efficacy of this treatment. Anakinra significantly reduced mortality of mice (P &lt; .001). Anakinra significantly decreased TTP-induced cardiac damage as assessed by blood troponin concentrations, evaluation of left ventricular function by echocardiography, [18F]fluorodeoxyglucose positron emission tomography of myocardial glucose metabolism, and cardiac histology. Anakinra also significantly reduced brain TTP-induced damage evaluated through blood PS100b concentrations, nuclear imaging, and histology. We finally showed that IL-1α and -1β trigger endothelial degranulation in vitro, leading to the release of von Willebrand factor. In conclusion, anakinra significantly reduced TTP mortality in a preclinical model of the disease by inhibiting both endothelial degranulation and postischemic inflammation, supporting further evaluations in humans

    Multiresolution analysis of convergence and divergence of inertial particle velocity in turbulence

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    International audienceWe study the multiscale dynamics of inertial particle clustering using three-dimensional DNS data of isotropic turbulence with inertial particles considering different Stokes numbers. We apply a tessellation-based technique and thus assign a volume to each point particle. The temporal rate of changeof the volumes yields the divergence of the particle velocity (Oujia et al., 2020; Maurel-Oujia et al., 2024). We perform a multiresolution analysis of the divergence on unstructured discrete particle positions (Matsuda et al., 2022). Thus the multiscale clustering dynamics is assessed and the spatial scales where clustering formation and destruction are most active, is determined for the different Stokes numbers

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