Detection of the Characteristic Pion-Decay Signature in Supernova Remnants. Fermi LAT collaboration

M. Ackermann; M. Ajello; A. Allafort; L. Baldini; G. Barbiellini; M. G. Baring; R. A. Cameron; John W. Hewitt

doi:10.1126/science.1231160

Detection of the Characteristic Pion-Decay Signature in Supernova Remnants. Fermi LAT collaboration

M. Ackermann, M. Ajello, A. Allafort, L. Baldini, G. Barbiellini, M. G. Baring, R. A. Cameron, John W. Hewitt

Producción científica: Article › revisión exhaustiva

Resumen

Cosmic rays are particles (mostly protons) accelerated to relativistic speeds. Despite wide agreement that supernova remnants (SNRs) are the sources of galactic cosmic rays, unequivocal evidence for the acceleration of protons in these objects is still lacking. When accelerated protons encounter interstellar material, they produce neutral pions, which in turn decay into gamma rays. This offers a compelling way to detect the acceleration sites of protons. The identification of pion-decay gamma rays has been difficult because high-energy electrons also produce gamma rays via bremsstrahlung and inverse Compton scattering. We detected the characteristic pion-decay feature in the gamma-ray spectra of two SNRs, IC 443 and W44, with the Fermi Large Area Telescope. This detection provides direct evidence that cosmic-ray protons are accelerated in SNRs.

Idioma original	American English
Páginas (desde-hasta)	807-811
Publicación	Science Magazine
Volumen	339
N.º	6121
DOI	https://doi.org/10.1126/science.1231160
Estado	Published - 2013

Disciplines

Cosmology, Relativity, and Gravity
Stars, Interstellar Medium and the Galaxy

Acceder al documento

10.1126/science.1231160Licencia: Unspecified

https://arxiv.org/abs/1302.3307

Citar esto

@article{00bac38cccdf4d2b8709344aa0f0c4e6,

title = "Detection of the Characteristic Pion-Decay Signature in Supernova Remnants. Fermi LAT collaboration",

abstract = " Cosmic rays are particles (mostly protons) accelerated to relativistic speeds. Despite wide agreement that supernova remnants (SNRs) are the sources of galactic cosmic rays, unequivocal evidence for the acceleration of protons in these objects is still lacking. When accelerated protons encounter interstellar material, they produce neutral pions, which in turn decay into gamma rays. This offers a compelling way to detect the acceleration sites of protons. The identification of pion-decay gamma rays has been difficult because high-energy electrons also produce gamma rays via bremsstrahlung and inverse Compton scattering. We detected the characteristic pion-decay feature in the gamma-ray spectra of two SNRs, IC 443 and W44, with the Fermi Large Area Telescope. This detection provides direct evidence that cosmic-ray protons are accelerated in SNRs.",

keywords = "Physics - Astrophysics of Galaxies, Physics - High Energy Astrophysical Phenomena",

author = "M. Ackermann and M. Ajello and A. Allafort and L. Baldini and G. Barbiellini and Baring, {M. G.} and Cameron, {R. A.} and Hewitt, {John W.}",

note = "Hewitt, J.W., Ackermann, M., Baldini, L., Bechtol, K., Bellazzini, R., Blandford, R. D., Borgland, A. W., Bottacini, E., Brandt, T. J., Bregeon, J., Brigida, M., Bruel, P., Busetto, G., Buson, S., Cameron, et. al. (2013). Detection of the Characteristic Pion-Decay Signature in Supernova Remnants. Science Magazine, 339, 807. https://doi.org/10.48550/arxiv.1302.3307",

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T1 - Detection of the Characteristic Pion-Decay Signature in Supernova Remnants. Fermi LAT collaboration

AU - Ackermann, M.

AU - Ajello, M.

AU - Allafort, A.

AU - Baldini, L.

AU - Barbiellini, G.

AU - Baring, M. G.

AU - Cameron, R. A.

AU - Hewitt, John W.

N1 - Hewitt, J.W., Ackermann, M., Baldini, L., Bechtol, K., Bellazzini, R., Blandford, R. D., Borgland, A. W., Bottacini, E., Brandt, T. J., Bregeon, J., Brigida, M., Bruel, P., Busetto, G., Buson, S., Cameron, et. al. (2013). Detection of the Characteristic Pion-Decay Signature in Supernova Remnants. Science Magazine, 339, 807. https://doi.org/10.48550/arxiv.1302.3307

PY - 2013

Y1 - 2013

N2 - Cosmic rays are particles (mostly protons) accelerated to relativistic speeds. Despite wide agreement that supernova remnants (SNRs) are the sources of galactic cosmic rays, unequivocal evidence for the acceleration of protons in these objects is still lacking. When accelerated protons encounter interstellar material, they produce neutral pions, which in turn decay into gamma rays. This offers a compelling way to detect the acceleration sites of protons. The identification of pion-decay gamma rays has been difficult because high-energy electrons also produce gamma rays via bremsstrahlung and inverse Compton scattering. We detected the characteristic pion-decay feature in the gamma-ray spectra of two SNRs, IC 443 and W44, with the Fermi Large Area Telescope. This detection provides direct evidence that cosmic-ray protons are accelerated in SNRs.

AB - Cosmic rays are particles (mostly protons) accelerated to relativistic speeds. Despite wide agreement that supernova remnants (SNRs) are the sources of galactic cosmic rays, unequivocal evidence for the acceleration of protons in these objects is still lacking. When accelerated protons encounter interstellar material, they produce neutral pions, which in turn decay into gamma rays. This offers a compelling way to detect the acceleration sites of protons. The identification of pion-decay gamma rays has been difficult because high-energy electrons also produce gamma rays via bremsstrahlung and inverse Compton scattering. We detected the characteristic pion-decay feature in the gamma-ray spectra of two SNRs, IC 443 and W44, with the Fermi Large Area Telescope. This detection provides direct evidence that cosmic-ray protons are accelerated in SNRs.

KW - Physics - Astrophysics of Galaxies

KW - Physics - High Energy Astrophysical Phenomena

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