Hunting for gamma-ray emission from fast radio bursts

Principe, G.; Venere, L. Di; Negro, Michela

doi:10.1051/0004-6361/202346492

Cited by 5 publications

(1 citation statement)

References 83 publications

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“…At the time of writing, the only magnetar flaring event detected in the gamma-ray regime was the GF from a magnetar in NGC 253, detected by Fermi-GBM [129] and Fermi-LAT with a photon of up to 1.7 GeV [130]. However, recent results published by Fermi-LAT on individual FRBs analysis reported no significant emission in the LAT energy band [131]. Nonetheless, the detection of hard X-ray bursts with a non-thermal spectrum in SGR 1935+2154 shows that at least some FRBs are able to accelerate particles and produce MeV non-thermal emission.…”

Section: Fast Radio Bursts and Magnetarsmentioning

confidence: 99%

A Very-High-Energy Gamma-Ray View of the Transient Sky

Carosi,

López-Oramas

2024

Universe

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The development of the latest generation of Imaging Atmospheric Cherenkov Telescopes (IACTs) over recent decades has led to the discovery of new extreme astrophysical phenomena in the very-high-energy (VHE, E > 100 GeV) gamma-ray regime. Time-domain and multi-messenger astronomy are inevitably connected to the physics of transient VHE emitters, which show unexpected (and mostly unpredictable) flaring or exploding episodes at different timescales. These transients often share the physical processes responsible for the production of the gamma-ray emission, through cosmic-ray acceleration, magnetic reconnection, jet production and/or outflows, and shocks interactions. In this review, we present an up-to-date overview of the VHE transients field, spanning from novae to supernovae, neutrino counterparts or fast radio bursts, among others, and we outline the expectations for future facilities.

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Section: Fast Radio Bursts and Magnetarsmentioning

confidence: 99%

A Very-High-Energy Gamma-Ray View of the Transient Sky

Carosi,

López-Oramas

2024

Universe

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Early-timeγ-ray constraints on cosmic-ray acceleration in the core-collapse SN 2023ixf with theFermiLarge Area Telescope

Martí-Devesa,

Cheung,

Di Lalla

et al. 2024

A&A

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While supernova remnants (SNRs) have been considered the most relevant Galactic cosmic ray (CR) accelerators for decades, core-collapse supernovae (CCSNe) could accelerate particles during the earliest stages of their evolution and hence contribute to the CR energy budget in the Galaxy. Some SNRs have indeed been associated with TeV gamma -rays, yet proton acceleration efficiency during the early stages of an SN expansion remains mostly unconstrained. The multi-wavelength observation of SN 2023ixf, a Type II supernova (SN) in the nearby galaxy M101 (at a distance of 6.85 Mpc), opens the possibility to constrain CR acceleration within a few days after the collapse of the red super-giant stellar progenitor. With this work, we intend to provide a phenomenological, quasi-model-independent constraint on the CR acceleration efficiency during this event at photon energies above 100 MeV. We performed a maximum-likelihood analysis of gamma -ray data from the Fermi Large Area Telescope up to one month after the SN explosion. We searched for high-energy, non-thermal emission from its expanding shock, and estimated the underlying hadronic CR energy reservoir assuming a power-law proton distribution consistent with standard diffusive shock acceleration. We do not find significant gamma -ray emission from SN 2023ixf. Nonetheless, our non-detection provides the first limit on the energy transferred to the population of hadronic CRs during the very early expansion of a CCSN. Under reasonable assumptions, our limits would imply a maximum efficiency on the CR acceleration of as low as 1<!PCT!>, which is inconsistent with the common estimate of 10<!PCT!> in generic SNe. However, this result is highly dependent on the assumed geometry of the circumstellar medium, and could be relaxed back to 10<!PCT!> by challenging spherical symmetry. Consequently, a more sophisticated, inhomogeneous characterisation of the shock and the progenitor's environment is required before establishing whether or not Type II SNe are indeed efficient CR accelerators at early times.

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A targeted search for FRB counterparts with Konus-Wind

Ridnaia,

Frederiks,

Svinkin

2023

Monthly Notices of the Royal Astronomical Society

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We present results of the search for hard X-ray/soft γ-ray emission in coincidence with publicly reported (via Transient Name Server, TNS †) fast radio bursts (FRBs). The search was carried out using continuous Konus-Wind data with 2.944 s time resolution. We perform a targeted search for each individual burst from 581 FRBs, along with a stacking analysis of the bursts from 8 repeating sources in our sample and a separate stacking analysis of the bursts from the non-repeating FRBs. We find no significant associations in either case. We report upper bounds on the hard X-ray (20 - 1500 keV) flux assuming four spectral models, which generally describe spectra of short and long GRBs, magnetar giant flares, and the short burst, coincident with FRB 200428 from a Galactic magnetar. Depending on the spectral model, our upper bounds are in the range of (0.1 − 2) × 10−6 erg cm−2. For 18 FRBs with known distances we present upper bounds on the isotropic equivalent energy release and peak luminosity. For the nearest FRB 200120E, we derive the most stringent upper bounds of Eiso ≤2.0 × 1044 erg and Liso ≤1.2 × 1044 erg s−1. Furthermore, we report lower bounds on radio-to-gamma-ray fluence ratio Eradio/Eiso ≥ 10−11 − 10−9 and compare our results with previously reported searches and theoretical predictions for high-energy counterparts to FRBs.

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Hunting for gamma-ray emission from fast radio bursts

Cited by 5 publications

References 83 publications

A Very-High-Energy Gamma-Ray View of the Transient Sky

A Very-High-Energy Gamma-Ray View of the Transient Sky

Early-timeγ-ray constraints on cosmic-ray acceleration in the core-collapse SN 2023ixf with theFermiLarge Area Telescope

A targeted search for FRB counterparts with Konus-Wind

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