Brian Swingle Colloquium at Caltech

From the Physics Research Conference 2015-2016
on Thursday, November 19, 2015 at 4:00 pm
at the California Institute of Technology, East Bridge 201 – Norman Bridge Laboratory of Physics, East

All talks are intended for a broad audience, and everyone is encouraged to attend. A list of future conferences can be found here.
Sponsored by Division of Physics, Mathematics and Astronomy

In recent years we have learned that the physics of quantum information plays a crucial role in the emergence of spacetime from microscopic degrees of freedom.

I will review the idea that entanglement is the glue which holds spacetime together and show how Einstein’s equations plausibly emerge from this perspective. One ubiquitous feature of these dynamical equations is the formation of black holes, so I will conclude by discussing some new ideas about the nature of spacetime inside a black hole.

Brian Swingle, postdoctoral fellow at the Stanford Institute for Theoretical Physics and physicist focusing on quantum matter, quantum information, and quantum gravity
in Physics Research Conference | Caltech

https://mh-echo360-srv2.caltech.edu:8443/ess/echo/presentation/f3cfc7f6-ae22-4b8e-a92d-bfb17ead67ad?embed=true

Click here for full screen presentation.

Einstein’s Equations From Entanglement was originally published on Chris Aldrich | Boffo Socko

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