Formation of delta-doped, buried conducting layers in diamond, by high-energy, B-ion implantation

Abstract

The electrical properties of a deeply buried, boron-doped layer in type IIa diamond are reported. The layer is fabricated using mega-electron-volt (MeV) B-ion implantation, followed by furnace annealing at 1450°C. Electrical contact to the buried layer is made using laser-induced graphitization. The room temperature Hall mobility of the acceptors in the buried layer is 585 cm2/Vs, which is the highest value yet reported for ion-implanted diamond, with an acceptor concentration of (3.9±0.3) x 1018 cm-3, a compensation ratio of approximately 5%, and an activation energy of 0.354±0.006 eV. The temperature dependence of the mobility is very similar to that observed in natural B-doped type IIb di..