Asymptotically Limitless Quantum Energy Teleportation via Qudit Probes

Guillaume Verdon-Akzam; Eduardo Martín-Martínez; Achim Kempf

Asymptotically Limitless Quantum Energy Teleportation via Qudit Probes

ORAL

Abstract

We propose a modified Quantum Energy Teleportation (QET) scheme that uses arbitrary-dimensional qudit probes and polynomially localized Hamiltonians. We find that with an appropriate scaling of parameters, the teleported energy scales with the teleportation distance more favourably than the nonlocal tails of the Hamiltonians. We show that by allowing the exchange of arbitrary amounts of information between agents and in a suitable limit, an arbitrarily large amount of energy can be teleported through a massless quantum field.

^*arXiv:1510.03751 - E.M-M and AK acknowledge funding from the NSERC Discovery program.

March 15, 2016, 12:51 PM – March 15, 2016, 1:03 PM

Authors

Guillaume Verdon-Akzam
- Institute for Quantum Computing - University of Waterloo
Eduardo Martín-Martínez
- Institute for Quantum Computing - Perimeter Institute - University of Waterloo
Achim Kempf
- University of Waterloo (Department of Applied Mathematics), Institute for Quantum Computing, Perimeter Institute for Theoretical Physics
- Perimeter Institute - Institute for Quantum Computing - University of Waterloo