Wet-Milling

Resources in the Wet-Milling category. A full list of categories is also available.

1. Room-temperature single photon emitters based on silicon-vacancy centers in diamond nanocrystals

   Publication
   in Nanodiamonds, Silicon Vacancy Centers and Wet-Milling

   Narrowband, room-temperature single photon emitters based on silicon-vacancy centers in diamond nanocrystals produced by a wet-milling process.

   Lindner, S., Bommer, A., Muzha, A., Krueger, A., Gines, L., Mandal, S., Williams, O., & Becher, C.

   (2015). In Single Photon Workshop.

   Citation plain

   Lindner, S., Bommer, A., Muzha, A., Krueger, A., Gines, L., Mandal, S., Williams, O., & Becher, C. (2015). Narrowband, room-temperature single photon emitters based on silicon-vacancy centers in diamond nanocrystals produced by a wet-milling process. In Single Photon Workshop.

   Citation bibtex

   @booklet{lindner2015narrowband,
     title={Narrowband, room-temperature single photon emitters based on silicon-vacancy centers in diamond nanocrystals produced by a wet-milling process},
     author={Lindner, Sarah and Bommer, Alexander and Muzha, Andreas and Krueger, Anke and Gines, Laia and Mandal, Soumen and Williams, Oliver and Becher, Christoph},
     booktitle={Single Photon Workshop},
     year={2015}
   }

2. Narrowband, room-temperature single photon emitters based on silicon-vacancy centers in diamond nanocrystals produced by a wet-milling process

   Talk
   in Nanodiamonds, Silicon Vacancy Centers and Wet-Milling

   We report a technique to produce SiV centers in nanodiamonds exploiting a wet-milling process to produce nanodiamonds containing single SiV centers. The observed zero-phonon-lines include linewidths as narrow as 0.95 nm. The center wavelengths of the zero-phonon-lines vary among SiV centers in distinct nanodiamonds, resulting in an overall distribution accumulating at approximately 740 nm.