Controlled light-matter coupling for a single quantum dot embedded in a pillar microcavity using far-field optical lithography

Details Controlled light-matter coupling for a single quantum dot embedded in a pillar microcavity using far-field optical lithography Controlled light-matter coupling for a single quantum dot embedded in a pillar microcavity using far-field optical lithography

2008-07-28

arxiv.org/abs/0807.4427v2

PHYSICAL REVIEW LETTERS : PRL 101, 267404 (2008)

Physics

Condensed Matter

Materials Science

Modified version: new title, additional experimental data in figure 3

Scientific paper

10.1103/PhysRevLett.101.267404

Using far field optical lithography, a single quantum dot is positioned within a pillar microcavity with a 50 nm accuracy. The lithography is performed in-situ at 10 K while measuring the quantum dot emission. Deterministic spectral and spatial matching of the cavity-dot system is achieved in a single step process and evidenced by the observation of strong Purcell effect. Deterministic coupling of two quantum dots to the same optical mode is achieved, a milestone for quantum computing.

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