Implementation of a Quantum Switch with Superconducting Circuits: Part 1
ORAL
Abstract
A quantum switch (QSwitch) is a four-node quantum router that swaps a single photon between an input and two outputs based on a quantum address. In contrast to previous quantum routers, which require the output qubit to be classically selected, a QSwitch can route to a superposition of outputs. A QSwitch is a necessary component for building a quantum RAM (QRAM), as the gate that it enables forms the basis of the memory access operation upon which QRAM usage relies.
This is the first part of a two-part talk. In this part we focus on a new protocol that relies on a strong ZZ coupling between a control qubit and the input and output qubits. We will show that the protocol is gate efficient. Then the device used to implement this switch will be presented together with the implemented gates used in the protocol.
This is the first part of a two-part talk. In this part we focus on a new protocol that relies on a strong ZZ coupling between a control qubit and the input and output qubits. We will show that the protocol is gate efficient. Then the device used to implement this switch will be presented together with the implemented gates used in the protocol.
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Presenters
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Sebastien Leger
Stanford University
Authors
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Sebastien Leger
Stanford University
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Connie Miao
Stanford University
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Aditya Bhardwaj
University of Chicago
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Gideon Lee
University of Chicago
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Aaron Trowbridge
Carnegie Mellon University
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Liang Jiang
University of Chicago
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David I Schuster
Stanford University