Title :
Application of charged insulator defects for the realisation of low-dimensional structures in silicon
Author :
Wu, J.E. ; Gauja, E. ; Vogl, B. ; Puzzer, T. ; Lumpkin, N.E. ; Dzurak, A.S. ; Ckark, R.G. ; Aberle, A.G.
Author_Institution :
Photovoltaics Special Res. Centre, New South Wales Univ., Sydney, NSW, Australia
Abstract :
Low-dimensional structures such as quantum wires and dots are a key feature of upcoming nanoscale semiconductor devices. As yet, such structures can only be realised using expensive and sophisticated lithographic methods. In contrast, we aim at fabricating quantum structures in silicon using a very simple and cost-effective approach. The structures are based on charged insulator defects within a silicon oxide/silicon nitride insulator stack on a p-type silicon wafer. By means of an atomic-resolution microscope the insulator defects can controllably be charged or discharged, offering the potential to realise inversion-layer quantum dots and wires in silicon
Keywords :
defect states; elemental semiconductors; interface states; inversion layers; semiconductor quantum dots; semiconductor quantum wires; semiconductor-insulator boundaries; silicon; silicon compounds; Si-SiO2-Si3N4; atomic-resolution microscopy; charged insulator defects; cost-effective approach; inversion-layer quantum dots; inversion-layer quantum wires; low-dimensional structures; nanoscale semiconductor devices; p-type silicon wafer; quantum dots; quantum structures; quantum wires; silicon; silicon oxide/silicon nitride insulator stack; Atomic force microscopy; Cable insulation; Circuits; Dielectrics and electrical insulation; Metal-insulator structures; Nanoscale devices; Quantum computing; Quantum dots; Silicon; Wires;
Conference_Titel :
Semiconducting and Insulating Materials Conference, 2000. SIMC-XI. International
Conference_Location :
Canberra, ACT
Print_ISBN :
0-7803-5814-7
DOI :
10.1109/SIM.2000.939229
