论文信息 - Single electron transport and current quantization in a novel quantum dot structure

Single electron transport and current quantization in a novel quantum dot structure

We report on single electron transport via a novel quantum dot structure fabricated by a combination of mesa etching and gate formation. In this device electrons are confined in an etched submicron wire and squeezed further by two barrier gates. The resulting dot is of a very small size, and the number of confined electrons can be tuned down to the few electron limit. This novel structure has a large charging energy and an improved current quantization during turnstile operation. In small dots, containing only a few electrons, we found Coulomb oscillations with an unexplained multiple peak structure.

[1] K. H. Ploog,et al. Magnetotransport investigations of a quantum dot with a small number of electrons , 1993 .

[2] Michel Devoret,et al. Frequency-locked turnstile device for single electrons , 1990 .

[3] Michel Devoret,et al. Single Charge Tunneling , 1992 .

[4] H. V. Houten,et al. Submicron conducting channels defined by shallow mesa etch in GaAs‐AlGaAs heterojunctions , 1986 .

[5] S. Shapiro. JOSEPHSON CURRENTS IN SUPERCONDUCTING TUNNELING: THE EFFECT OF MICROWAVES AND OTHER OBSERVATIONS , 1963 .

[6] Johnson,et al. Zero-dimensional states and single electron charging in quantum dots. , 1992, Physical review letters.

[7] Dolan,et al. Observation of single-electron charging effects in small tunnel junctions. , 1987, Physical review letters.

[8] G. Dorda,et al. New Method for High-Accuracy Determination of the Fine-Structure Constant Based on Quantized Hall Resistance , 1980 .

[9] Quantized current in a quantum dot turnstile , 1991 .