Journal article
Optical and electronic properties of sub-surface conducting layers in diamond created by MeV B-implantation at elevated temperatures
LH Willems Van Beveren, R Liu, H Bowers, K Ganesan, BC Johnson, JC McCallum, S Prawer
Journal of Applied Physics | AMER INST PHYSICS | Published : 2016
DOI: 10.1063/1.4953583
Abstract
Boron implantation with in-situ dynamic annealing is used to produce highly conductive sub-surface layers in type IIa (100) diamond plates for the search of a superconducting phase transition. Here, we demonstrate that high-fluence MeV ion-implantation, at elevated temperatures avoids graphitization and can be used to achieve doping densities of 6 at. %. In order to quantify the diamond crystal damage associated with implantation Raman spectroscopy was performed, demonstrating high temperature annealing recovers the lattice. Additionally, low-temperature electronic transport measurements show evidence of charge carrier densities close to the metal-insulator-transition. After electronic chara..
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Awarded by Air Force Research Laboratory
Funding Acknowledgements
This material is based on research sponsored by Air Force Research Laboratory under Agreement No. FA2386-13-1-4055. The U.S. Government is authorized to reproduce and distribute reprints for Governmental purposes notwithstanding any copyright notation thereon. The authors acknowledge A. Stacey for discussions and access to ion implantation and/or ion-beam analysis facilities at the ACT node of the Heavy-Ion-Accelerator Capability funded by the Australian Government under the NCRIS program. The authors furthermore acknowledge the Western Sydney University's SIMS Facility.