Journal article
Observing Er3 Sites in Si with an in Situ Single-Photon Detector
IR Berkman, A Lyasota, GG De Boo, JG Bartholomew, BC Johnson, JC McCallum, BB Xu, S Xie, RL Ahlefeldt, MJ Sellars, C Yin, S Rogge
Physical Review Applied | Published : 2023
Abstract
We present a flexible method to study the optical properties of an Er3+ ensemble in Si accessed via resonant excitation and in situ single-photon detection. The technique allows an efficient resonant photoluminescence detection of optically active centers with weak oscillator strength in transparent crystals without the need for nanofabrication on the sample. We observe 70 Er3+ resonances in Si, of which 62 resonances have not been observed in the literature, with optical lifetimes ranging from 0.5 to 1.5 ms. We observe inhomogeneous broadening of less than 400 MHz and an upper bound on the homogeneous linewidth of 0.75 and 1.4 MHz for two separate resonances. These narrow, stable resonances..
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Grants
Awarded by Centre of Excellence for Quantum Computation and Communication Technology, Australian Research Council
Funding Acknowledgements
The SSPD fabrication is performed at the NSW Node and ACT Node of the Australian National Fabrication Facility. We acknowledge the AFAiiR node of the NCRIS Heavy Ion Capability for access to ion-implantation facilities. This work is supported by the ARC Centre of Excellence for Quantum Computation and Communication Technology (Grant No. CE170100012) and the Discovery Project (Grant No. DP210101784) . We thank Dr Sae Woo Nam for kind support to establish the SSPD fabrication process at the University of New South Wales, Sydney.