Physical Review X (Jun 2018)

Controllable Photonic Time-Bin Qubits from a Quantum Dot

  • J. P. Lee,
  • L. M. Wells,
  • B. Villa,
  • S. Kalliakos,
  • R. M. Stevenson,
  • D. J. P. Ellis,
  • I. Farrer,
  • D. A. Ritchie,
  • A. J. Bennett,
  • A. J. Shields

DOI
https://doi.org/10.1103/PhysRevX.8.021078
Journal volume & issue
Vol. 8, no. 2
p. 021078

Abstract

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Photonic time-bin qubits are well suited to transmission via optical fibers and waveguide circuits. The states take the form 1/sqrt[(2)](α|0⟩+e^{iϕ}β|1⟩), with |0⟩ and |1⟩ referring to the early and late time bin, respectively. By controlling the phase of a laser driving a spin-flip Raman transition in a single-hole-charged InAs quantum dot, we demonstrate complete control over the phase, ϕ. We show that this photon generation process can be performed deterministically, with only a moderate loss in coherence. Finally, we encode different qubits in different energies of the Raman scattered light, paving the way for wavelength-division multiplexing at the single-photon level.