Scholars@Duke
Deniz Acil

Selected Publications

Room-Temperature Picosecond Single-Photon Emission from a Silicon Vacancy Center in Diamond.

Journal Article ACS nano · May 2025 Artificially tailoring quantum emitters by coupling them to optical cavities is critical for applications such as all-photonic quantum computing and quantum key distribution. Among quantum emitters, diamond defect centers, with their atomic-like characteri ... Full text Cite

Integration of nanometer thin diamond membranes in plasmonic cavities: a roadmap to ultrafast emissions

Conference Advanced Fabrication Technologies for Micro/Nano Optics and Photonics XVIII · March 19, 2025 Full text Cite

Ultrafast single photons from silicon vacancies in plasmonic diamond at room-temperature

Conference Ultrafast Phenomena and Nanophotonics XXIX · March 19, 2025 Full text Cite

Thin Film Interference in Diamond Membranes for Control of Silicon Vacancy Center Emission

Journal Article Advanced Optical Materials · January 1, 2025 Thin-film interference is widely leveraged in classical optics as a minimalistic yet powerful lever for controlling optical fields, underpinning technologies from anti‑reflective coatings to photovoltaics. However, extending this concept to diamond membran ... Full text Cite

Plasmonic Diamond Membranes for Ultrafast Silicon Vacancy Emission.

Journal Article Nano letters · March 2024 Silicon vacancy centers (SiVs) in diamond have emerged as a promising platform for quantum sciences due to their excellent photostability, minimal spectral diffusion, and substantial zero-phonon line emission. However, enhancing their slow nanosecond excit ... Full text Cite

Nanoplasmonics for Purcell-enhanced Spontaneous Emission in Diamond Silicon Vacancy Centers

Conference CLEO: Fundamental Science, CLEO:FS 2024 in Proceedings CLEO 2024 - Part of Conference on Lasers and Electro-Optics · January 1, 2024 Slow spontaneous emission limits photonic-based quantum information applications. Here, we discuss our recent progress in realizing ultrafast emission in silicon vacancy centers through integrating diamond membranes with sub-diffraction limited plasmonic c ... Cite

Nanoplasmonics for Purcell-enhanced Spontaneous Emission in Diamond Silicon Vacancy Centers

Conference 2024 Conference on Lasers and Electro-Optics, CLEO 2024 · January 1, 2024 Slow spontaneous emission limits photonic-based quantum information applications. Here, we discuss our recent progress in realizing ultrafast emission in silicon vacancy centers through integrating diamond membranes with sub-diffraction limited plasmonic c ... Cite

Nanoplasmonics for Purcell-enhanced Spontaneous Emission in Diamond Silicon Vacancy Centers

Conference 2024 Conference on Lasers and Electro Optics CLEO 2024 · January 1, 2024 Slow spontaneous emission limits photonic-based quantum information applications. Here, we discuss our recent progress in realizing ultrafast emission in silicon vacancy centers through integrating diamond membranes with sub-diffraction limited plasmonic c ... Full text Cite