The low-frequency power spectra of the X-ray and radio emission from four microquasars suggest that two distinct modes of energy output are at work: (i) the `coupled' mode in which the X-ray and radio luminosities are closely coupled and vary only weakly, and (ii) the `flaring' mode, which dramatically boosts the radio luminosity but makes no impact on the X-ray luminosity. The systems are in the flaring mode only a few per cent of the time. However, flares completely dominate the power spectrum of radio emission, with the consequence that sources in which the flaring mode occurs, such as GRS1915+105 and CygX-3, have radio power spectra that lie more than an order of magnitude above the corresponding X-ray power spectra. Of the four microquasars for which we have examined data, in only one, CygX-1, is the flaring mode seemingly inactive. While CygX-1 is a black hole candidate, one of the three flaring sources, ScoX-1, is a neutron star. Consequently, it is likely that both modes are driven by the accretion disc rather than black hole spin. Radio imaging strongly suggests that the flaring mode involves relativistic jets. A typical microquasar is in the flaring mode a few per cent of the time, which is similar to the fraction of quasars that are radio-loud. Thus there may be no essential difference between radio-loud and radio-quiet quasars; radio-loudness may simply be a function of the epoch at which the source is observed.
Nipoti C., Blundell K.M., Binney J. (2005). Radio-loud flares from microquasars and radio-loudness of quasars. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 361, 633-637 [10.1111/j.1365-2966.2005.09194.x].
Radio-loud flares from microquasars and radio-loudness of quasars
NIPOTI, CARLO;
2005
Abstract
The low-frequency power spectra of the X-ray and radio emission from four microquasars suggest that two distinct modes of energy output are at work: (i) the `coupled' mode in which the X-ray and radio luminosities are closely coupled and vary only weakly, and (ii) the `flaring' mode, which dramatically boosts the radio luminosity but makes no impact on the X-ray luminosity. The systems are in the flaring mode only a few per cent of the time. However, flares completely dominate the power spectrum of radio emission, with the consequence that sources in which the flaring mode occurs, such as GRS1915+105 and CygX-3, have radio power spectra that lie more than an order of magnitude above the corresponding X-ray power spectra. Of the four microquasars for which we have examined data, in only one, CygX-1, is the flaring mode seemingly inactive. While CygX-1 is a black hole candidate, one of the three flaring sources, ScoX-1, is a neutron star. Consequently, it is likely that both modes are driven by the accretion disc rather than black hole spin. Radio imaging strongly suggests that the flaring mode involves relativistic jets. A typical microquasar is in the flaring mode a few per cent of the time, which is similar to the fraction of quasars that are radio-loud. Thus there may be no essential difference between radio-loud and radio-quiet quasars; radio-loudness may simply be a function of the epoch at which the source is observed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.