Ultrahigh-energy neutrinos as a probe of espresso-shear acceleration in jets of Centaurus A

Rostom Mbarek; Damiano Caprioli; Kohta Murase

doi:10.1103/PhysRevD.111.023024

Ultrahigh-energy neutrinos as a probe of espresso-shear acceleration in jets of Centaurus A

Rostom Mbarek
, Damiano Caprioli
, Kohta Murase

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

It has been suggested that Centaurus A (Cen A) could make a contribution to the observed ultrahigh-energy cosmic-ray (UHECR) flux. We calculate the flux of astrophysical neutrinos produced by UHECRs accelerated in the jet of Cen A, a close-by jetted active galactic nucleus. We use a bottom-up approach, in which we follow the energization of protons and heavier elements in a magnetohydrodynamic simulation of a relativistic jet with proper parameters of Cen A, also accounting for attenuation losses based on the observed photon fields. We compare the expected neutrino flux with the sensitivity of current and planned neutrino detectors. We find that the detection of ∼1017-1018 eV neutrinos from Cen A would require ultimate neutrino detectors that reach a point source sensitivity of ∼a few×10-13 erg cm-2 s-1. Successful detection, though challenging, would be useful in constraining the Cen A contribution to the UHECRs.

Original language	English (US)
Article number	023024
Journal	Physical Review D
Volume	111
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevD.111.023024
State	Published - Feb 1 2025

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

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10.1103/PhysRevD.111.023024

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title = "Ultrahigh-energy neutrinos as a probe of espresso-shear acceleration in jets of Centaurus A",

abstract = "It has been suggested that Centaurus A (Cen A) could make a contribution to the observed ultrahigh-energy cosmic-ray (UHECR) flux. We calculate the flux of astrophysical neutrinos produced by UHECRs accelerated in the jet of Cen A, a close-by jetted active galactic nucleus. We use a bottom-up approach, in which we follow the energization of protons and heavier elements in a magnetohydrodynamic simulation of a relativistic jet with proper parameters of Cen A, also accounting for attenuation losses based on the observed photon fields. We compare the expected neutrino flux with the sensitivity of current and planned neutrino detectors. We find that the detection of ∼1017-1018 eV neutrinos from Cen A would require ultimate neutrino detectors that reach a point source sensitivity of ∼a few×10-13 erg cm-2 s-1. Successful detection, though challenging, would be useful in constraining the Cen A contribution to the UHECRs.",

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AU - Mbarek, Rostom

AU - Caprioli, Damiano

AU - Murase, Kohta

PY - 2025/2/1

Y1 - 2025/2/1

N2 - It has been suggested that Centaurus A (Cen A) could make a contribution to the observed ultrahigh-energy cosmic-ray (UHECR) flux. We calculate the flux of astrophysical neutrinos produced by UHECRs accelerated in the jet of Cen A, a close-by jetted active galactic nucleus. We use a bottom-up approach, in which we follow the energization of protons and heavier elements in a magnetohydrodynamic simulation of a relativistic jet with proper parameters of Cen A, also accounting for attenuation losses based on the observed photon fields. We compare the expected neutrino flux with the sensitivity of current and planned neutrino detectors. We find that the detection of ∼1017-1018 eV neutrinos from Cen A would require ultimate neutrino detectors that reach a point source sensitivity of ∼a few×10-13 erg cm-2 s-1. Successful detection, though challenging, would be useful in constraining the Cen A contribution to the UHECRs.

AB - It has been suggested that Centaurus A (Cen A) could make a contribution to the observed ultrahigh-energy cosmic-ray (UHECR) flux. We calculate the flux of astrophysical neutrinos produced by UHECRs accelerated in the jet of Cen A, a close-by jetted active galactic nucleus. We use a bottom-up approach, in which we follow the energization of protons and heavier elements in a magnetohydrodynamic simulation of a relativistic jet with proper parameters of Cen A, also accounting for attenuation losses based on the observed photon fields. We compare the expected neutrino flux with the sensitivity of current and planned neutrino detectors. We find that the detection of ∼1017-1018 eV neutrinos from Cen A would require ultimate neutrino detectors that reach a point source sensitivity of ∼a few×10-13 erg cm-2 s-1. Successful detection, though challenging, would be useful in constraining the Cen A contribution to the UHECRs.

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Ultrahigh-energy neutrinos as a probe of espresso-shear acceleration in jets of Centaurus A

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