Fabrication of Triangular Nanobeam Waveguide Networks in Bulk diamond Using Single-Crystal Silicon Hard Masks

Fabrication of Triangular Nanobeam Waveguide Networks in Bulk diamond Using Single-Crystal Silicon Hard Masks

A scalable approach for integrated photonic networks in single-crystal diamond using triangular etching of bulk samples is presented. We describe designs of high quality factor (Q=2.51x10^6) photonic crystal cavities with low mode volume (Vm=1.062x({\lambda}/n)^3), which are connected via waveguides...

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Veröffentlicht in:arXiv.org 2014-11
Hauptverfasser: Bayn, I, Mouradian, S, L Li, Goldstein, J A, Schröder, T, Zhang, J, Chen, E H, Gaathon, O, M Lu, Stein, A, Ruggiero, C A, Salzman, J, Kalish, R, Englund, D
Format: Artikel
Sprache:eng
Schlagworte:
Crystal structure
Diamonds
Etching
Holes
Masks
Photonic crystals
Physics - Optics
Q factors
Silicon
Single crystals
Transmission loss
Visible spectrum
Waveguides
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Zusammenfassung:A scalable approach for integrated photonic networks in single-crystal diamond using triangular etching of bulk samples is presented. We describe designs of high quality factor (Q=2.51x10^6) photonic crystal cavities with low mode volume (Vm=1.062x({\lambda}/n)^3), which are connected via waveguides supported by suspension structures with predicted transmission loss of only 0.05 dB. We demonstrate the fabrication of these structures using transferred single-crystal silicon hard masks and angular dry etching, yielding photonic crystal cavities in the visible spectrum with measured quality factors in excess of Q=3x103.
ISSN:2331-8422
DOI:10.48550/arxiv.1411.3639