Abstracts of Interest
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Abstract: 2210.05670
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Title:General relativistic simulations of collapsing binary neutron star mergers with Monte-Carlo neutrino transport
Download PDFAbstract: Recent gravitational wave observations of neutron star-neutron star and neutron star-black hole binaries appear to indicate that massive neutron stars may not be too uncommon in merging systems. These discoveries have led to an increased interest in the simulation of merging compact binaries involving massive stars. In this manuscript, we present a first set of evolution of massive neutron star binaries using Monte-Carlo radiation transport for the evolution of neutrinos. We study a range of systems, from nearly symmetric binaries that collapse to a black hole before forming a disk or ejecting material, to more asymmetric binaries in which tidal disruption of the lower mass star leads to the production of more interesting post-merger remnants. For the latter type of systems, we additionally study the impact of viscosity on the properties of the outflows, and compare our results to two recent simulations of identical binaries performed with the WhiskyTHC code. We find excellent agreement on the black hole properties, disk mass, and mass and velocity of the outflows, and some minor but noticeable differences in the evolution of the electron fraction when using a subgrid viscosity model. The method used to account for r-process heating in the determination of the outflow properties appears to have a larger impact on our result than those differences between numerical codes. We also take advantage of the use of a Monte-Carlo code to study in more detail the neutrino energy spectrum, and use the simulation with the most ejected material to verify that our newly implemented Lagrangian tracers provide a reasonable sampling of the matter outflows as they leave the computational grid.
Abstract: 2210.07090
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Title:Impact of the finite life-time of UHECR sources
Download PDFAbstract: The observational data on ultrahigh energy cosmic rays (UHECR), in particular their mass composition, show strong indications for extremely hard spectra of individual mass groups of CR nuclei at Earth. In this work, we show that such hard spectra can be the result of the finite life-time of UHECR sources, if a few individual sources dominate the UHECR flux at the highest energies. In this case, time delays induced by deflections in the turbulent extragalactic magnetic field as well as from the diffusive or advective escape from the source environment can suppress low-energy CRs, leading to a steepening of the observed spectrum. Considering radio galaxies as the main source of UHECRs, we discuss the necessary conditions that few individual sources dominate over the total contribution from the bulk of sources that have been active in the past. We provide two proof-of-principle scenarios showing that for a turbulent extragalactic magnetic field with a strength $B$ and a coherence length $l_{\rm coh}$, the life-time of a source at a distance $d_{\rm src}$ should satisfy ${t_{\rm act} \sim \left( B/1\,\text{nG} \right)^2\,\left( d_{\rm src}/10\,\text{Mpc} \right)^2\,\left( l_{\rm coh}/1\,\text{Mpc} \right)\,\text{Myr}}$ to obtain the necessary hardening of the CR spectrum at Earth.
Abstract: 2210.07797
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Title:Air showers and hadronic interactions with CORSIKA 8
Download PDFAbstract: The CORSIKA 8 project is a collaborative effort aiming to develop a versatile C++ framework for the simulation of extensive air showers, intended to eventually succeed the long-standing FORTRAN version. I present an overview of its current capabilities, focusing on aspects concerning the hadronic and muonic shower components. In particular, I demonstrate the "cascade lineage" feature and its application to quantify the importance of certain phase-space regions in hadronic interactions for muon production. Additionally, I show first results using Pythia 8.3, which as of late is usable as interaction model in cosmic-ray applications and is currently being integrated into CORSIKA 8.
Abstract: 2210.07575
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Title:Sub-TeV hadronic interaction model differences and their impact on air showers
Download PDFAbstract: In the sub-TeV regime, the most widely used hadronic interaction models disagree significantly in their predictions of particle spectra from cosmic ray induced air showers. We investigate the nature and impact of model uncertainties, focussing on air shower primaries with energies around the transition between high and low energy hadronic interaction models, where the dissimilarities are largest and which constitute the bulk of the interactions in air showers.
Abstract: 2210.07172
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Title:Interpretation of multi-TeV photons from GRB221009A
Download PDFAbstract: The nearby GRB22109A at redshift $z=0.1505$ has been observed up to a maximum energy of 18 TeV with the LHAASO air shower array. The expected optical depth for a photon with energy $E_\gamma=18$~TeV varies between 9.2 and 27.1 according to existing models of the extra-galactic background light in the relevant mid infra-red range. The resulting suppression of the flux makes it unlikely that this photon could be observed. If the photon event and its energy are however confirmed and possibly even more photons above 10 TeV have been observed, the photon-pairproduction process would have to be suppressed by mechanisms predicted in extensions of the standard model of particle physics. We consider the possibilities of photon mixing with a light pseudo-scalar (e.g., axion-like particle: ALP) in the magnetic field of the host galaxy and the Milky Way and Lorentz-invariance violation (LIV). In the case of photon-ALP mixing, the boost factor would reach values $\sim10^6$ for photon couplings not ruled out by the CAST experiment. In the case of LIV, required boost factors are achievable for a LIV breaking energy scale $\lesssim 10^{28}$ eV for the linear modification of the dispersion relation and $\lesssim 10^{20}$ eV for the quadratic modification. A more simple explanation would be a misidentification of a charged cosmic-ray air shower.
Abstract: 2210.10011
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Title:Flare Duty Cycle of Gamma-Ray Blazars and Implications for High-Energy Neutrino Emission
Download PDFAbstract: Gamma-ray flares of blazars may be accompanied by high-energy neutrinos due to interactions of high-energy cosmic rays in the jet with photons, as suggested by the detection of the high-energy neutrino IceCube-170922A during a major gamma-ray flare from blazar TXS 0506+056 at the $\sim3\sigma$ significance level. In this work, we present a statistical study of gamma-ray emission from blazars to constrain the contribution of gamma-ray flares to their neutrino output. We construct weekly binned light curves for 145 gamma-ray bright blazars in the {\it Fermi} Large Area Telescope (LAT) Monitored Source List. We derive the fraction of time spent in the flaring state (flare duty cycle) and the fraction of energy released during each flare from the light curves with a Bayesian blocks algorithm. We find that blazars with lower flare duty cycles and energy fractions are more numerous among our sample. We identify no significant differences between blazar sub-classes in terms of flaring activity. Then using a general scaling relation for the neutrino and gamma-ray luminosities, $L_{\nu} \propto (L_{\gamma})^{\gamma}$ with a weighting exponent of ${\gamma} = 1.0 - 2.0$, normalized to the quiescent gamma-ray or X-ray flux of each blazar, we evaluate the neutrino energy flux of each gamma-ray flare. The gamma-ray flare distribution indicates that blazar neutrino emission may be dominated by flares for $\gamma\gtrsim1.5$. The neutrino energy fluxes for one-week and 10-year bins are compared with the declination-dependent IceCube sensitivity to constrain the standard neutrino emission models for gamma-ray flares. Finally, we present the upper-limit contribution of blazar gamma-ray flares to the isotropic diffuse neutrino flux.
Abstract: 2210.09892
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Title:Constraining the origin of stellar binary black hole mergers by detections of their lensed host galaxies and gravitational wave signals
Download PDFAbstract: A significant number of stellar binary black hole (sBBH) mergers may be lensed and detected by the third generation gravitational wave (GW) detectors. Their lensed host galaxies may be detectable, which thus helps to accurately localize these sources and provide a new approach to study the origin of sBBHs. In this paper, we investigate the detectability of the lensed host galaxies for the lensed sBBH mergers. We find that the detection fraction of the host galaxies to the lensed GW events can be significantly different for a survey with a given limiting magnitude if sBBHs are produced by different mechanisms, such as the evolution of massive binary stars, the dynamical interactions in dense star clusters, and that assisted by active galactic nuclei or massive black holes. Furthermore, we illustrate that the statistical spatial distribution of those lensed sBBHs in its hosts resulting from different sBBH formation channels can be different from each other. Therefore, with the third generation GW detectors and future large scale galaxy surveys, it is possible to independently constrain the sBBH origin via the detection fraction of those lensed events with identifiable lensing host signatures and/or even constrain the contribution fractions from different sBBH formation mechanisms
Abstract: 2210.07166
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Title:What charged cosmic rays tell us on dark matter
Download PDFAbstract: Dark matter particles could be the major component of the haloes of galaxies. Their mutual annihilations or decays would produce an indirect signature under the form of high-energy cosmic-rays. The focus of this presentation is on antimatter species, a component so rare that any excess over the background should be easily detected. After a recap on Galactic propagation, I will discuss positrons, antiprotons and anti-nuclei. For each of these species, anomalies have been reported. The antiproton excess, for instance, is currently a hot topic. Alas, it does not resist a correct treatment of theoretical and data errors.
Abstract: 2210.09592
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Title:Search for continuous gravitational waves from HESS~J1427-608 with a hidden Markov model
Download PDFAbstract: We present a search for continuous gravitational wave signals from an unidentified pulsar potentially powering HESS J1427-608, a spatially-unresolved TeV point source detected by the High Energy Stereoscopic System (H.E.S.S). The search uses a semi-coherent algorithm, which combines the maximum likelihood $\mathcal{F}-$statistic with a hidden Markov Model to efficiently detect and track quasi-monochromatic signals that wander randomly in frequency. It uses data from the second observing run of the Advanced Laser Interferometer Gravitational-Wave Observatory. Multi-wavelength observations of the H.E.S.S. source are combined with the proprieties of the population of TeV-bright pulsar wind nebulae to constrain the search parameters. We find no evidence of gravitational-wave emission from this target. We set upper limits on the characteristic wave strain $h_0^{95\%}$ (for circularly-polarised signals) at $95\%$ confidence level in sample sub-bands and interpolate it to estimate the sensitivity in the full band. We find $h_0^{95\%} = 1.3\times 10^{-25}$ near 185~Hz. The implied constraints on the ellipticity and r-mode amplitude reach $\epsilon\leq 10^{-5}$ and $\alpha \leq 10^{-3}$ at 200~Hz, respectively.
Abstract: 2210.06499
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Title:JWST Imaging of the Cartwheel Galaxy Reveals Dust Formation in SN 2021afdx
Download PDFAbstract: We present near- and mid-infrared (0.9-18 $\mu$m) photometry of supernova (SN) 2021afdx, which was imaged serendipitously with the James Webb Space Telescope (JWST) as part of its Early Release Observations of the Cartwheel Galaxy. Our ground-based optical observations show it is likely to be a Type IIb SN, the explosion of a yellow supergiant, and its infrared spectral energy distribution (SED) $\approx$200 days after explosion shows two distinct components, which we attribute to hot gas and warm dust in the SN ejecta. By fitting models of dust emission to the SED, we derive a lower limit on the dust mass of ${>}2.8 \times 10^{-3}\ M_\odot$, which is the highest yet observed in a Type IIb SN but consistent with other Type II SNe observed by the Spitzer Space Telescope. We also find that the radius of the dust is consistent with the radius of the ejecta, as derived from spectroscopic velocities during the photospheric phase, which could imply that the dust formed inside the ejecta. However, we cannot rule out an infrared echo off of pre-existing dust in the progenitor environment. Our results show the power of JWST to address questions of dust formation in SNe, and therefore the presence of dust in the early Universe, with much larger samples than have been previously possible.
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