Hardware-efficient quantum memory protection
ORAL
Abstract
We propose a new method to autonomously correct for errors of a logical qubit induced by energy relaxation. This scheme encodes the logical qubit as a multi-component superposition of coherent states in a harmonic oscillator, more specifically a single cavity mode. The sequences of encoding, decoding and correction operations employ the non-linearity provided by a single physical qubit coupled to the cavity. We layout in detail how to implement these operations in a circuit QED architecture. This proposal directly addresses the task of building a hardware-efficient and technically realizable quantum memory.
–
Authors
-
Zaki Leghtas
Applied Physics Department, Yale University, Yale University Dept. of Applied Physics
-
Gerhard Kirchmair
Applied Physics Department, Yale University, Yale University, Yale University Dept. of Applied Physics
-
Brian Vlastakis
Applied Physics Department, Yale University, Yale University Dept. of Applied Physics
-
Robert Schoelkopf
Applied Physics Department, Yale University, Department of Applied Physics, Yale University, Yale University, Yale University Dept. of Applied Physics, Department of Physics and Applied Physics, Yale University
-
Michel Devoret
Applied Physics Department, Yale University
-
Mazyar Mirrahimi
INRIA Paris-Rocquencourt / Applied Physics Department, Yale University