Scalable fabrication of coupled NV center - photonic crystal cavity systems by self-aligned N ion implantation

Author(s)

Schröder, T; Walsh, M; Zheng, J; Mouradian, S; Li, L; Malladi, G; Bakhru, H; Lu, M; Stein, A; Heuck, M; Englund, D; ... Show more Show less

Abstract

© 2017 Optical Society of America. Towards building large-scale integrated photonic systems for quantum information processing, spatial and spectral alignment of single quantum systems to photonic nanocavities is required. Here, we demonstrate spatially targeted implantation of nitrogen vacancy (NV) centers into the mode maximum of 2-d diamond photonic crystal cavities with quality factors up to 8000, achieving an average of 1:1 ± 0:2 NVs per cavity. Nearly all NV-cavity systems have significant emission intensity enhancement, reaching a cavity-fed spectrally selective intensity enhancement, Fint, of up to 93. Although spatial NV-cavity overlap is nearly guaranteed within about 40 nm, spectral tuning of the NV's zero-phonon-line (ZPL) is still necessary after fabrication. To demonstrate spectral control, we temperature tune a cavity into an NV ZPL, yielding FZPLint 5 at cryogenic temperatures.

Date issued

2017

URI

https://hdl.handle.net/1721.1/135756

Journal

Optical Materials Express

Publisher

The Optical Society

Citation

Schroder, T., et al. "Scalable Fabrication of Coupled Nv Center-Photonic Crystal Cavity Systems by Self-Aligned N Ion Implantation." Optical Materials Express 7 5 (2017): 1514-24.

Version: Final published version