We study the generalized Unruh effect for accelerated reference frames that
include rotation in addition to acceleration. We focus particularly on the case
where the motion is planar, with presence of a static limit in addition to the
event horizon. Possible definitions of an accelerated vacuum state are examined
and the interpretation of the Minkowski vacuum state as a thermodynamic state
is discussed. Such athermodynamic state is shown to depend on two parameters,
the acceleration temperature and a drift velocity, which are determined by the
acceleration and angular velocity of the accelerated frame. We relate the
properties of Minkowski vacuum in the accelerated frame to the excitation
spectrum of a detector that is stationary in this frame. The detector can be
excited both by absorbing positive energy quanta in the "hot" vacuum state and
by emitting negative energy quanta into the "ergosphere" between the horizon
and the static limit. The effects are related to similar effects in the
gravitational field of a rotating black hole.Comment: Latex, 39 pages, 5 figure
