Conference Proceedings
Towards hybrid diamond optical devices
BC Gibson, S Castelletto, TJ Karle, S Tomljenovic-Hanic, I Aharonovich, BC Johnson, J Orwa, MR Henderson, H Ebendorff-Heidepriem, K Kuan, SV Afshar, TM Monro, AD Greentree, S Prawer
International Conference on Transparent Optical Networks | IEEE | Published : 2011
Abstract
Diamond is emerging as an optical supermaterial, due to its wide transparency bandwidth, excellent thermooptic properties and most notably its stable, large dipole moment, room temperature, single photon emitting colour centres. In this paper we present recent progress in the characterization of non radiative and radiative decay in single impurities and the fabrication of hybrid diamond-tellurite optical structures First, we present direct imaging of the emission pattern of individual ion implanted chromium-based single photon emitters in diamond and measure their quantum efficiency. By comparing the decay rates from the single chromium emitters at different depths in the diamond crystal, we..
View full abstractGrants
Awarded by International Science Linkages Program of the Australian Department of Innovation, Industry, Science and Research
Awarded by EU under the EQUIND collaboration
Awarded by ARC Australian Research Fellowship
Awarded by ARC
Awarded by ARC Federation Fellowship
Awarded by Australian Research Council
Funding Acknowledgements
This work was supported by the Australian Research Council (ARC), the Department of Education Science and Technology under the International Science Linkages scheme, the International Science Linkages Program of the Australian Department of Innovation, Industry, Science and Research (Project No. CG 11 0039) and the EU 6th Framework under the EQUIND collaboration IST-034368. STH is supported by the ARC Australian Research Fellowship (DP1096288). ADG is supported by the ARC Queen Elizabeth II Fellowship (DP0880466). T. M. M. acknowledges the support of an ARC Federation Fellowship (project number FF0883189). We also acknowledge Alastair Dowler and Roger Moore for fibre drawing. The Australian National University is acknowledged for providing ion implanting facilities. The authors thank Mete Atature for helpful discussions.