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Speaker |
Kontou, Eleni-Alexandra |
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Coauthors |
Brown, Peter J.; Fewster, Christopher J. |
| Talk Title |
Strong Quantum Energy Inequality And The Hawking Singularity Theorem |
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Abstract |
Hawking's singularity theorem concerns matter obeying the strong energy condition (SEC), which means that all observers experience a nonnegative effective energy density (EED), thereby guaranteeing the timelike convergence property. However, for both classical and quantum fields, violations of the SEC can be observed in some of the simplest of cases, for example the massive Klein-Gordon field. Therefore there is a need to develop theorems with weaker restrictions, namely energy conditions averaged over an entire geodesic and quantum inequalities, weighted local averages of energy densities. We have derived lower bounds of the EED in the presence of both classical and quantum scalar fields allowing nonzero mass and nonminimal coupling to the scalar curvature. In the quantum case these bounds take the form of a set of state-dependent quantum energy inequalities valid for the class of Hadamard states. Finally, we discuss how the classical and quantum inequalities derived can be used as an assumption to a modified Hawking-type singularity theorem. |
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