Title of article
Black holes, string theory and quantum coherence
Author/Authors
Daniele Amati، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 1999
Pages
4
From page
203
To page
206
Abstract
On the basis of recently discovered connections between D-branes and black holes, I show how the information puzzle is solved by superstring theory as the fundamental theory of quantum gravity. The picture that emerges is that a well-defined quantum state does not give rise to a black hole even if the apparent distribution of energy, momenta, charges, etc. would predict one on classical grounds. Indeed, geometry – general relativistic space time description – is unwarranted at the quantum microstate level. It is the decoherence leading to macrostates (average over degenerate microstates) that provides – on the same token – the loss of quantum coherence, the emergence of a space time description with causal properties and, thus, the formation of a black hole and its Hawking evaporation.
Journal title
PHYSICS LETTERS B
Serial Year
1999
Journal title
PHYSICS LETTERS B
Record number
911369
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