Charged quantum dot micropillar system for deterministic light-matter interactions

@article{Androvitsaneas2016ChargedQD,
  title={Charged quantum dot micropillar system for deterministic light-matter interactions},
  author={Petros Androvitsaneas and A. B. Young and Schneider and Sebastian Maier and Martin Kamp and S. Hofling and Sebastian Knauer and Edmund Harbord and Chengyong Hu and John G. Rarity and Ruth Oulton},
  journal={Physical Review B},
  year={2016},
  volume={93},
  pages={241409}
}
This work was funded by the Future Emerging Technologies (FET) programme within the Seventh Framework Programme for Research of the European Commission, FET-Open, FP7-284743 [project Spin Photon Angular Momentum Transfer for Quantum Enabled Technologies (SPANGL4Q)] and the German Ministry of Education and research (BMBF) and Engineering and Physical Sciences Research Council (EPSRC) [project Solid State Quantum Networks (SSQN)]. J.G.R. is sponsored by the EPSRC fellowship EP/M024458/1. 

Figures from this paper

Deterministic giant photon phase shift from a single charged quantum dot
  • P. Androvitsaneas, A. Young, R. Oulton
  • Physics
    2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)
  • 2017
Quantum dots (QDs) can be incorporated into solid state photonic devices such as cavities or waveguides that enhance the light-matter interaction. A near unit efficiency light-matter interaction is
Criteria for quantum dot microcavity design for a deterministic photon phase switch
TLDR
This work examines the use of the electron spin degree of freedom as a means to achieve a controllable quantum switching of single photons and trains of photons in semiconductor integrated circuits.
Efficient Quantum Photonic Phase Shift in a Low Q-Factor Regime
Solid-state quantum emitters have long been recognized as the ideal platform to realize integrated quantum photonic technologies. We demonstrate that a self-assembled negatively charged quantum dot
Quantum optics of 1D atoms with application to spin-photon interfaces
Quantum phenomena give rise to new and revolutionary possibilities in the fields of computation and cryptography. The problems that are unsolvable with classical means are expected to be solved by
Quantum Dot Spins in Micropillar Cavities
We will examine the requirements for generating photonic entanglement using a charged quantum dot in a pillar microcavity. We will discuss how to make an efficient device and parametrise the dynamics
FDTD Modelling of Optical Polarisation Rotation in a Charged Quantum Dot - Micropillar System
We employ a quantum master equations approach based on a full-wave Maxwell-pseudospin model to describe the polarisation dynamics of a negatively charged quantum dot embedded in a micropillar cavity
Dynamical Model of Optical Polarisation Rotation in a Charged Quantum Dot - Micropillar System
We employ a quantum master equations approach based on a vectorial Maxwell-pseudospin model to describe the polarisation dynamics of a negatively charged quantum dot embedded in a micropillar cavity
Interfacing Single Quantum Dot Spins with Photons Using a Nanophotonic Cavity
The spin of a single electron or hole trapped inside a quantum dot offers a promising quantum memory. These qubits are embedded in a host semiconductor material that can be directly patterned to form
Phonon limit to simultaneous near-unity efficiency and indistinguishability in semiconductor single photon sources
Semiconductor quantum dots have recently emerged as a leading platform to efficiently generate highly indistinguishable photons [1-3], and this work addresses the timely question of how good these
Electrical tuning of integrated III-V quantum dots in quantum nano-photonic circuits
This thesis describes optical measurements on nanophotonic devices with integrated electrically tuneable quantum dots. The quantum dots enable a range of non-linear behaviour, including single photon
...
...

References

SHOWING 1-10 OF 38 REFERENCES
Quantum Electronics
Progress in Quantum Electronics.J. H. Sanders and K. W. H. Stevens. Vol. 1. Pp. vii + 374. (Pergamon: Oxford and New York, December 1971.) £7.
Atmospheric pollution profiles in Mexico City in two different seasons
A CO2-laser-based photoacoustic spectrometer was used to determine the temporal concentration profile of atmospheric ethene in Mexico City. Ethene measurements were conducted at the facilities of our
APPL
TLDR
A prototype probability package named APPL (A Probability Programming Language) is presented that can be used to manipulate random variables and examples illustrate its use.
Et al
TLDR
A large population-based survey of veterans and nondeployed controls found evidence of a deployment-related Gulf War syndrome by factor analysis in Air Force veterans and controls.
Statistical Methods in Quantum Optics 2
43
A and V
Phys
  • Rev. Lett. 99, 023902
  • 2007
Phys
  • Rev. Lett. 101, 113903
  • 2008
Physical Review Letters 101
  • 180404
  • 2008
...
...