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Very-high-energy particle acceleration powered by the jets of the microquasar SS 433.
Abeysekara, A U; Albert, A; Alfaro, R; Alvarez, C; Álvarez, J D; Arceo, R; Arteaga-Velázquez, J C; Avila Rojas, D; Ayala Solares, H A; Belmont-Moreno, E; BenZvi, S Y; Brisbois, C; Caballero-Mora, K S; Capistrán, T; Carramiñana, A; Casanova, S; Castillo, M; Cotti, U; Cotzomi, J; Coutiño de León, S; De León, C; De la Fuente, E; Díaz-Vélez, J C; Dichiara, S; Dingus, B L; DuVernois, M A; Ellsworth, R W; Engel, K; Espinoza, C; Fang, K; Fleischhack, H; Fraija, N; Galván-Gámez, A; García-González, J A; Garfias, F; González-Muñoz, A; González, M M; Goodman, J A; Hampel-Arias, Z; Harding, J P; Hernandez, S; Hinton, J; Hona, B; Hueyotl-Zahuantitla, F; Hui, C M; Hüntemeyer, P; Iriarte, A; Jardin-Blicq, A; Joshi, V; Kaufmann, S.
Afiliação
  • Abeysekara AU; Department of Physics and Astronomy, University of Utah, Salt Lake City, UT, USA.
  • Albert A; Physics and Theoretical Divisions, Los Alamos National Laboratory, Los Alamos, NM, USA.
  • Alfaro R; Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Alvarez C; Universidad Autónoma de Chiapas, Tuxtla Gutiérrez, Mexico.
  • Álvarez JD; Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Mexico.
  • Arceo R; Universidad Autónoma de Chiapas, Tuxtla Gutiérrez, Mexico.
  • Arteaga-Velázquez JC; Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Mexico.
  • Avila Rojas D; Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Ayala Solares HA; Department of Physics, Pennsylvania State University, University Park, PA, USA.
  • Belmont-Moreno E; Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • BenZvi SY; Department of Physics and Astronomy, University of Rochester, Rochester, NY, USA.
  • Brisbois C; Department of Physics, Michigan Technological University, Houghton, MI, USA.
  • Caballero-Mora KS; Universidad Autónoma de Chiapas, Tuxtla Gutiérrez, Mexico.
  • Capistrán T; Instituto Nacional de Astrofísica, Óptica y Electrónica, Puebla, Mexico.
  • Carramiñana A; Instituto Nacional de Astrofísica, Óptica y Electrónica, Puebla, Mexico.
  • Casanova S; Institute of Nuclear Physics Polish Academy of Sciences, IFJ-PAN, Krakow, Poland.
  • Castillo M; Max-Planck Institute for Nuclear Physics, Heidelberg, Germany.
  • Cotti U; Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Mexico.
  • Cotzomi J; Universidad Michoacana de San Nicolás de Hidalgo, Morelia, Mexico.
  • Coutiño de León S; Facultad de Ciencias Físico Matemáticas, Benemérita Universidad Autónoma de Puebla, Puebla, Mexico.
  • De León C; Instituto Nacional de Astrofísica, Óptica y Electrónica, Puebla, Mexico.
  • De la Fuente E; Facultad de Ciencias Físico Matemáticas, Benemérita Universidad Autónoma de Puebla, Puebla, Mexico.
  • Díaz-Vélez JC; Departamento de Física, Centro Universitario de Ciencias Exactas e Ingenierías, Universidad de Guadalajara, Guadalajara, Mexico.
  • Dichiara S; Departamento de Física, Centro Universitario de Ciencias Exactas e Ingenierías, Universidad de Guadalajara, Guadalajara, Mexico.
  • Dingus BL; Department of Physics and Wisconsin IceCube Particle Astrophysics Center, University of Wisconsin-Madison, Madison, WI, USA.
  • DuVernois MA; Instituto de Astronomía, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Ellsworth RW; Physics and Theoretical Divisions, Los Alamos National Laboratory, Los Alamos, NM, USA.
  • Engel K; Department of Physics and Wisconsin IceCube Particle Astrophysics Center, University of Wisconsin-Madison, Madison, WI, USA.
  • Espinoza C; School of Physics, Astronomy, and Computational Sciences, George Mason University, Fairfax, VA, USA.
  • Fang K; Department of Physics, University of Maryland, College Park, MD, USA.
  • Fleischhack H; Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Fraija N; Department of Astronomy, University of Maryland, College Park, MD, USA.
  • Galván-Gámez A; Joint Space-Science Institute, University of Maryland, College Park, MD, USA.
  • García-González JA; Department of Physics, Michigan Technological University, Houghton, MI, USA.
  • Garfias F; Instituto de Astronomía, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • González-Muñoz A; Instituto de Astronomía, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • González MM; Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Goodman JA; Instituto de Astronomía, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Hampel-Arias Z; Departamento de Física, Centro Universitario de Ciencias Exactas e Ingenierías, Universidad de Guadalajara, Guadalajara, Mexico.
  • Harding JP; Instituto de Astronomía, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Hernandez S; Department of Physics, University of Maryland, College Park, MD, USA.
  • Hinton J; Department of Physics and Wisconsin IceCube Particle Astrophysics Center, University of Wisconsin-Madison, Madison, WI, USA.
  • Hona B; Inter-university Institute for High Energies, Université Libre de Bruxelles, Brussels, Belgium.
  • Hueyotl-Zahuantitla F; Physics and Theoretical Divisions, Los Alamos National Laboratory, Los Alamos, NM, USA.
  • Hui CM; Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico.
  • Hüntemeyer P; Max-Planck Institute for Nuclear Physics, Heidelberg, Germany.
  • Iriarte A; Department of Physics, Michigan Technological University, Houghton, MI, USA.
  • Jardin-Blicq A; Universidad Autónoma de Chiapas, Tuxtla Gutiérrez, Mexico.
  • Joshi V; NASA Marshall Space Flight Center, Astrophysics Office, Huntsville, AL, USA.
  • Kaufmann S; Department of Physics, Michigan Technological University, Houghton, MI, USA.
Nature ; 562(7725): 82-85, 2018 10.
Article em En | MEDLINE | ID: mdl-30283106
ABSTRACT
SS 433 is a binary system containing a supergiant star that is overflowing its Roche lobe with matter accreting onto a compact object (either a black hole or neutron star)1-3. Two jets of ionized matter with a bulk velocity of approximately 0.26c (where c is the speed of light in vacuum) extend from the binary, perpendicular to the line of sight, and terminate inside W50, a supernova remnant that is being distorted by the jets2,4-8. SS 433 differs from other microquasars (small-scale versions of quasars that are present within our own Galaxy) in that the accretion is believed to be super-Eddington9-11, and the luminosity of the system is about 1040 ergs per second2,9,12,13. The lobes of W50 in which the jets terminate, about 40 parsecs from the central source, are expected to accelerate charged particles, and indeed radio and X-ray emission consistent with electron synchrotron emission in a magnetic field have been observed14-16. At higher energies (greater than 100 gigaelectronvolts), the particle fluxes of γ-rays from X-ray hotspots around SS 433 have been reported as flux upper limits6,17-20. In this energy regime, it has been unclear whether the emission is dominated by electrons that are interacting with photons from the cosmic microwave background through inverse-Compton scattering or by protons that are interacting with the ambient gas. Here we report teraelectronvolt γ-ray observations of the SS 433/W50 system that spatially resolve the lobes. The teraelectronvolt emission is localized to structures in the lobes, far from the centre of the system where the jets are formed. We have measured photon energies of at least 25 teraelectronvolts, and these are certainly not Doppler-boosted, because of the viewing geometry. We conclude that the emission-from radio to teraelectronvolt energies-is consistent with a single population of electrons with energies extending to at least hundreds of teraelectronvolts in a magnetic field of about 16 microgauss.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2018 Tipo de documento: Article
Texto completo
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2018 Tipo de documento: Article