Bibcode
Aleksić, J.; Ansoldi, S.; Antonelli, L. A.; Antoranz, P.; Babic, A.; Bangale, P.; Barres de Almeida, U.; Barrio, J. A.; Becerra González, J.; Bednarek, W.; Berger, K.; Bernardini, E.; Biland, A.; Blanch, O.; Bock, R. K.; Bonnefoy, S.; Bonnoli, G.; Borracci, F.; Bretz, T.; Carmona, E.; Carosi, A.; Carreto Fidalgo, D.; Colin, P.; Colombo, E.; Contreras, J. L.; Cortina, J.; Covino, S.; Da Vela, P.; Dazzi, F.; De Angelis, A.; De Caneva, G.; De Lotto, B.; Delgado Mendez, C.; Doert, M.; Domínguez, A.; Dominis Prester, D.; Dorner, D.; Doro, M.; Einecke, S.; Eisenacher, D.; Elsaesser, D.; Farina, E.; Ferenc, D.; Fonseca, M. V.; Font, L.; Frantzen, K.; Fruck, C.; García López, R. J.; Garczarczyk, M.; Garrido Terrats, D.; Gaug, M.; Giavitto, G.; Godinović, N.; González Muñoz, A.; Gozzini, S. R.; Hadamek, A.; Hadasch, D.; Herrero, A.; Hildebrand, D.; Hose, J.; Hrupec, D.; Idec, W.; Kadenius, V.; Kellermann, H.; Knoetig, M. L.; Krause, J.; Kushida, J.; La Barbera, A.; Lelas, D.; Lewandowska, N.; Lindfors, E.; Longo, F.; Lombardi, S.; López, M.; López-Coto, R.; López-Oramas, A.; Lorenz, E.; Lozano, I.; Makariev, M.; Mallot, K.; Maneva, G.; Mankuzhiyil, N.; Mannheim, K.; Maraschi, L.; Marcote, B.; Mariotti, M.; Martínez, M.; Mazin, D.; Menzel, U.; Meucci, M.; Miranda, J. M.; Mirzoyan, R.; Moralejo, A.; Munar-Adrover, P.; Nakajima, D.; Niedzwiecki, A.; Nilsson, K.; Nowak, N.; Orito, R.; Overkemping, A. et al.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 576, id.A126, 18 pp.
Fecha de publicación:
4
2015
Revista
Número de citas
97
Número de citas referidas
91
Descripción
Aims: We perform an extensive characterization of the broadband
emission of Mrk 421, as well as its temporal evolution, during the
non-flaring (low) state. The high brightness and nearby location (z =
0.031) of Mrk 421 make it an excellent laboratory to study blazar
emission. The goal is to learn about the physical processes responsible
for the typical emission of Mrk 421, which might also be extended to
other blazars that are located farther away and hence are more difficult
to study. Methods: We performed a 4.5-month multi-instrument
campaign on Mrk 421 between January 2009 and June 2009, which included
VLBA, F-GAMMA, GASP-WEBT, Swift, RXTE, Fermi-LAT, MAGIC, and Whipple,
among other instruments and collaborations. This extensive radio to
very-high-energy (VHE; E> 100 GeV) γ-ray dataset provides
excellent temporal and energy coverage, which allows detailed studies of
the evolution of the broadband spectral energy distribution.
Results: Mrk421 was found in its typical (non-flaring) activity state,
with a VHE flux of about half that of the Crab Nebula, yet the light
curves show significant variability at all wavelengths, the highest
variability being in the X-rays. We determined the power spectral
densities (PSD) at most wavelengths and found that all PSDs can be
described by power-laws without a break, and with indices consistent
with pink/red-noise behavior. We observed a harder-when-brighter
behavior in the X-ray spectra and measured a positive correlation
between VHE and X-ray fluxes with zero time lag. Such characteristics
have been reported many times during flaring activity, but here they are
reported for the first time in the non-flaring state. We also observed
an overall anti-correlation between optical/UV and X-rays extending over
the duration of the campaign. Conclusions: The
harder-when-brighter behavior in the X-ray spectra and the measured
positive X-ray/VHE correlation during the 2009 multi-wavelength campaign
suggests that the physical processes dominating the emission during
non-flaring states have similarities with those occurring during flaring
activity. In particular, this observation supports leptonic scenarios as
being responsible for the emission of Mrk 421 during non-flaring
activity. Such a temporally extended X-ray/VHE correlation is not driven
by any single flaring event, and hence is difficult to explain within
the standard hadronic scenarios. The highest variability is observed in
the X-ray band, which, within the one-zone synchrotron self-Compton
scenario, indicates that the electron energy distribution is most
variable at the highest energies.
Appendix A is available in electronic form at http://www.aanda.orgThe
complete data set shown in Fig. 1 is only available at the CDS via
anonymous ftp to http://cdsarc.u-strasbg.fr
(ftp://130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/576/A126
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