THE 1993 MULTIWAVELENGTH CAMPAIGN ON 3C-279 - THE RADIO TO GAMMA-RAY ENERGY-DISTRIBUTION IN LOW STATE

Simultaneous observations of 3C 279 at radio, millimeter, near-infrare d, optical, ultraviolet (with IUE) and X-ray (with ROSAT) wavelengths were obtained in 1992 December-1993 January, during a three week point ing at the source by the Compton Gamma Ray Observatory. The blazar was in a quiescent or ''low'' state during this period. Comparing the mul tiwavelenth energy distribution to that from 1991 June, when 3C 279 wa s in its brightest recorded gamma-ray state, we find the following: 1. 3C 279 faded dramatically at all frequencies above 10(14) Hz, while t he flux variations at low frequencies (radio to millimeter wavelengths ) were minor. 2. The near-infrared-optical-ultraviolet spectral shape was softer (steeper) in the quiescent state, and the X-ray spectra als o appear softer, although the spectral indix measured by ROSAT refer t o a lower energy band than that measured earlier with Ginga. 3. The ra tio of the gamma-ray luminosity to that across ah other frequencies de creased from a value of similar or equal to 10 in the flaring state to a value similar or equal to 1 in the quiescent state. These findings imply that the production of gamma-rays is closely related to the opti cal-ultraviolet continuum, in agreement with models where gamma-rays a re produced through inverse Compton (IC) scattering by relativistic el ectrons emitting the synchrotron continuum. The observed nonlinear rel ation between the synchrotron and IC requires both a change in the ele ctron spectrum and an associated change in the seed photons.