Single-Atom Nanoelectronics covers the fabrication of single-atom devices and related technology, as well as the relevant electronic equipment and the intriguing new phenomena related to single-atom and single-electron effects in quantum devices. It also covers the alternative approaches related to both silicon- and carbon-based technologies, also

chapter 1|4 pages


ByAsen Asenov

chapter 2|36 pages

Quantum Information in Silicon Devices Based on Individual Dopants

ByEnrico Prati, Andrea Morello

chapter 3|20 pages

Theory and Simulations of Controlled Electronic States Bound to a Single Dopant in Silicon

ByRajib Rahman, Lloyd C. L. Hollenberg, Gerhard Klimeck

chapter 4|28 pages

Using Scanning Tunneling Microscopy to Realize Atomic-Scale Silicon Devices

ByMartin Fuechsle, Michelle Y. Simmons

chapter 6|32 pages

Single-Ion Implantation for Quantum Computing

ByDavid N. Jamieson

chapter 8|24 pages

Low-Noise Current Measurements on Quantum Devices Operating at Cryogenic Temperature

ByFilippo Guagliardo, Giorgio Ferrari

chapter 9|20 pages

Orbital Structure and Transport Characteristics of Single Donors

ByJan Verduijn, Giuseppe C. Tettamanzi, Sven Rogge

chapter 10|24 pages

Single-Donor Transport Spectroscopy in Ultimate Silicon Transistors

ByMarc Sanquer, Xavier Jehl

chapter 11|26 pages

A Spin Quantum Bit Architecture with Coupled Donors and Quantum Dots in Silicon

ByThomas Schenkel, Cheuk Chi Lo, Christoph D. Weis, Jeffrey Bokor, Alexei M. Tyryshkin, Stephen A. Lyon

chapter 12|24 pages

Single Spins in Diamond: Novel Quantum Devices and Atomic Sensors

ByFedor Jelezko

chapter 13|24 pages

Silicon-Based Single-Dopant Devices and Integration with Photons

ByMichiharu Tabe, Daniel Moraru, Arief Udhiarto

chapter 14|16 pages

Circuits with Single-Atom Devices

ByJan A. Mol, Sven Rogge