Abstract We study various aspects of the mass deformation of the SYK model which makes the black hole microstates escapable.SYK boundary states are given by a simple local boundary condition on the Majorana fermions and then evolved in Euclidean time in the SYK Hamiltonian.We study the ground state of this mass deformed SYK model in detail.
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.We also use SYK boundary states as a variational approximation to the ground state of the mass deformed SYK model.
We compare variational approximation with the exact ground state results and they showed a good agreement.We also study the time evolution of the mass deformed ground state under the SYK Hamiltonian.We give a gravity interpretation of the mass deformed ground state and its time evolutions.
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.In gravity side, mass deformation gives a way to prepare black hole microstates that are similar to pure boundary state black holes.
Escaping protocol on these ground states simply gives a global AdS2 with an IR end of the world brane.We also study the thermodynamics and quantum chaotic properties of this mass deformed SYK model.Interestingly, we do not observe the Hawking Page like phase transition in this model in spite of similarity of the Hamiltonian with eternal traversable wormhole model where we have the phase transition