Black Hole Entropy in Induced Gravity and Information Loss
Abstract
The basic assumption of the induced gravity approach is that Einstein theory is an effective, low energy-form of a quantum theory of constituents. In this approach the Bekenstein-Hawking entropy SBH of a black hole can be interpreted as a measure of the loss of information about constituents inside the black hole horizon. To be more exact, SBH is determined by quantum correlations between "observable" and "non-observable" states with positive and negative energy E, respectively. It is important that for non-minimally coupled constituents E differs from the canonical Hamiltonian H. This explains why previous definitions of the entanglement entropy in terms of H failed to reproduce SBH.
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