Add to ORKGThis thesis research is focussed on the development of strongly coupled single-charge devices. Single-charge devices are sub-micrometer sized electronic circuits that use the fact that charge is quantized. Their main component is the tunnel junction, a resistive element that can be made as small as one nanometer. In the past, many different circuits have been fabricated with the tunnel junction such as ultra-sensitive electrometers. To actually fabricate logical gates and memory, a multi-layer technology is required to couple the circuit elements. We developped a special multi-layer technology, using heavily oxidized aluminum gates. With this new technique it was possible to make a memory cell, where information was coded as the presence or...
This work presents a study of molecular single-electron devices that may be used as the basic buildi...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...
This thesis research is focussed on the development of strongly coupled single-charge devices. Singl...
As electronic devices become extremely small, the charging energy associated by putting a single ele...
As electronic devices become extremely small, the charging energy associated by putting a single ele...
Contains a description of one research project and a list of publications.Joint Services Electronics...
Theoretical investigation of single-electron tunneling phenomena in semi-conductor heterostructures,...
Considering modeling of nanoelectronic devices, it is argued that four really different modeling lev...
Contains description of one research project.Joint Services Electronics Program Contract DAAL03-89-C...
In the pursuit of down-sizing electronic components, the ultimate limit is the use of single molecul...
Contains description of one research project.Joint Services Electronics Program Contract DAAL03-89-C...
Developments in theory and experiment have raised the prospect of an electronic technology based on ...
In this research the electromagnetic environment in a ballistic semiconductor nanostructure is engin...
The single electron transistor (SET) can detect a fraction of an electron of charge. It is a three t...
This work presents a study of molecular single-electron devices that may be used as the basic buildi...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...
This thesis research is focussed on the development of strongly coupled single-charge devices. Singl...
As electronic devices become extremely small, the charging energy associated by putting a single ele...
As electronic devices become extremely small, the charging energy associated by putting a single ele...
Contains a description of one research project and a list of publications.Joint Services Electronics...
Theoretical investigation of single-electron tunneling phenomena in semi-conductor heterostructures,...
Considering modeling of nanoelectronic devices, it is argued that four really different modeling lev...
Contains description of one research project.Joint Services Electronics Program Contract DAAL03-89-C...
In the pursuit of down-sizing electronic components, the ultimate limit is the use of single molecul...
Contains description of one research project.Joint Services Electronics Program Contract DAAL03-89-C...
Developments in theory and experiment have raised the prospect of an electronic technology based on ...
In this research the electromagnetic environment in a ballistic semiconductor nanostructure is engin...
The single electron transistor (SET) can detect a fraction of an electron of charge. It is a three t...
This work presents a study of molecular single-electron devices that may be used as the basic buildi...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...