Simulation, fabrication and control of nanophotonic circuits including diamond-based quantum emitters

Olthaus J; Schrinner PPJ; Schuck C; Reiter DE

Research article in edited proceedings (conference) | Peer reviewed

Abstract

Simultaneous access to several solid-state spin systems with Purcell-enhanced coupling of single photons into photonic integrated circuits is demonstrated. Photonic crys-tal cavities embedded in tantalum pentoxide waveguides enable optical detection of mag-netic resonances.

Details about the publication

Editors: Optica Publishing Group

Book title: Conference on Lasers and Electro-Optics (2021), paper JW4L.7

Page range: JW4L.7-JW4L.7

Publisher: Optica

Place of publication: San Jose

Status: Published

Release year: 2021

Language in which the publication is written: English

Conference: CLEO 2021, San Jose, United States

DOI: 10.1364/CLEO_AT.2021.JW4L.7

Link to the full text: https://opg.optica.org/abstract.cfm?uri=CLEO_QELS-2021-JW4L.7

Keywords: Defect center materials, Nitrogen vacancy centers, Optical detection, Photonic crystal cavities, Photonic crystals, Quantum light sources

Authors from the University of Münster

Olthaus, Jan	Junior professorship of theoretical physics with the focus on ultrafast optics in nanostructured solids (Prof. Reiter) (AG Reiter)
Reiter, Doris	Junior professorship of theoretical physics with the focus on ultrafast optics in nanostructured solids (Prof. Reiter) (AG Reiter)
Schrinner, Philip	Professorship of Experimental Physics (Prof. Schuck)
Schuck, Carsten	Professorship of Experimental Physics (Prof. Schuck)

Simulation, fabrication and control of nanophotonic circuits including diamond-based quantum emitters

Abstract

Details about the publication

Authors from the University of Münster

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