A qubit-photon controlled-NOT gate using a quantum dot strongly coupled to a cavity

Hyochul Kim; Ranojoy Bose; Thomas Shen; Glenn S. Solomon; Edo Waks

A qubit-photon controlled-NOT gate using a quantum dot strongly coupled to a cavity

ORAL

Abstract

Strong interactions between matter quantum bits (qubits) and photons play an essential role in quantum information. Quantum dots (QDs) provide a promising implementation of a matter qubit that can be strongly coupled to optical nanocavities, providing a direct light-matter interface. We use this light-matter interface to demonstrate a picosecond timescale controlled NOT logic gate between a QD and a photon, which is a fundamental building block for complex quantum logic. Coherent control of the QD qubit state by optical pulses results in a modification of cavity reflectivity, enabling a conditional bit-flip on the polarization state of a photon incident on the cavity.

March 18, 2013, 10:24 AM – March 18, 2013, 10:36 AM

Authors

Hyochul Kim
- University of Maryland
Ranojoy Bose
- University of Maryland
- Department of Electrical Engineering, University of Maryland, College Park
- University of Maryland,College Park
Thomas Shen
- University of Maryland
Glenn S. Solomon
- Joint Quantum Institute, NIST
- Joint Quantum Institute, University of Maryland and National Institute of Standards and Technology; National Institute of Standards and Technology
- NIST-Gaithersburg, and Joint Quantum Institute, University of Maryland, College Park
Edo Waks
- University of Maryland
- Department of Electrical Engineering, University of Maryland, College Park
- University of Maryland, College Park