Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/126948
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Type: Journal article
Title: Resolving acceleration to very high energies along the jet of Centaurus A
Author: Abdalla, H.
Adam, R.
Aharonian, F.
Benkhali, F.A.
Angüner, E.O.
Arakawa, M.
Arcaro, C.
Armand, C.
Ashkar, H.
Backes, M.
Barbosa Martins, V.
Barnard, M.
Becherini, Y.
Berge, D.
Bernlöhr, K.
Blackwell, R.
Böttcher, M.
Boisson, C.
Bolmont, J.
Bonnefoy, S.
et al.
Citation: Nature, 2020; 582(7812):356-359
Publisher: Springer Nature
Issue Date: 2020
ISSN: 0028-0836
1476-4687
Statement of
Responsibility: 
H. Abdalla … R. Blackwell … P. deWilt … K. Feijen … J. Lau … G. Rowell … F. Voisin … et al. [the H.E.S.S. Collaboration]
Abstract: The nearby radio galaxy Centaurus A belongs to a class of active galaxies that are luminous at radio wavelengths. Most show collimated relativistic outflows known as jets, which extend over hundreds of thousands of parsecs for the most powerful sources. Accretion of matter onto the central supermassive black hole is believed to fuel these jets and power their emission¹. Synchrotron radiation from relativistic electrons causes the radio emission, and it has been suggested that the X-ray emission from Centaurus A also originates in electron synchrotron processes²⁻⁴. Another possible explanation is inverse Compton scattering with cosmic microwave background (CMB) soft photons⁵⁻⁷. Synchrotron radiation needs ultrarelativistic electrons (about 50 teraelectronvolts) and, given their short cooling times, requires some continuous re-acceleration mechanism⁸. Inverse Compton scattering, on the other hand, does not require very energetic electrons, but the jets must stay highly relativistic on large scales (exceeding 1 megaparsec). Some recent evidence disfavours inverse Compton-CMB models⁹⁻¹², although other work seems to be compatible with them¹³′¹⁴. In principle, the detection of extended γ-ray emission, which directly probes the presence of ultrarelativistic electrons, could distinguish between these options. At gigaelectronvolt energies there is also an unusual spectral hardening¹⁵′¹⁶ in Centaurus A that has not yet been explained. Here we report observations of Centaurus A at teraelectronvolt energies that resolve its large-scale jet. We interpret the data as evidence for the acceleration of ultrarelativistic electrons in the jet, and favour the synchrotron explanation for the X-rays. Given that this jet is not exceptional in terms of power, length or speed, it is possible that ultrarelativistic electrons are commonplace in the large-scale jets of radio-loud active galaxies.
Keywords: H.E.S.S. Collaboration
Rights: © The Author(s), under exclusive licence to Springer Nature Limited 2020
RMID: 1000022826
DOI: 10.1038/s41586-020-2354-1
Appears in Collections:Physics publications

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