G. Braunbeck, S. Mandal, M. Touge, O. A. Williams, F. Reinhard
Published 2018-01-10Version 1
We investigate the correlation between surface roughness and corresponding $T_2$ times of nearsurface nitrogen-vacancy centers (~7 nm/ 5 keV implantation energy) in diamond. For this purpose we compare five different polishing techniques, including both purely mechanical as well as chemical mechanical approaches, two different substrate sources (Diam2tec and Element Six) and two different surface terminations (O- and H-termination) during nitrogen-vacancy forming. All coherence times are measured and compared before and after an oxygen surface treatment at 520 {\deg}C. We find that the coherence times of shallow nitrogen-vacancy centers are surprisingly independent of surface roughness.
Comments: 4 pages, 4 figures
Coherence times of Ce$^{3+}$ spin states in CaWO$_{4}$ crystal
Anomalous Heat and Momentum Transport Arising from Surface Roughness in a Normal $^3$He Slab
Charge stability and charge-state-based spin readout of shallow nitrogen-vacancy centers in diamond
![QR code for arXiv:1801.03292 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)