This thesis addresses two classes of ultra small devices where dimensions in all three directions approach electron de Broglie wavelength. The first class of devices are small MOSFETs while the second class is based on self assembled quantum dots. In small MOSFETs the key issues that are addressed are use of ferroelectric materials to suppress gate currents. Studies are also carried out to examine the role of polar interface charges and effects of hysteresis behaviors. We have developed formalism to address such devices and our work shows that ferroelectric MOSFETs can display enhanced inversion channel charges, memory retention in the capacitance-voltage curves and highly depressed gate leakage. In the area of self-assembled dots we exa...
The realization of a two-dimensional electron gas in semiconductor heterostructures due to advanced ...
In this article we examine the strain energy and intersubband optical transitions in self-assembled ...
Solution processed materials, such as organic molecules and semiconductor quantum dots (QDs), have b...
This thesis addresses two classes of ultra small devices where dimensions in all three directions ap...
Low dimensional structures (LDS) form a major new branch of physics research. They are semiconductor...
The notion of low dimensionality becomes more than a pure mathematical ideal, as scaling of modern e...
Continued miniaturization of electronic devices is the primary cause for improvement of both speed a...
This work is motivated by the prospect of building a quantum computer: a device that would allow phy...
A detailed optical characterisation of (1.3 )InAs quantum-dot-in-well (DWELL) laser structures, is d...
The serious limitations in down-sizing conventional MOS devices motivate us to develop novel functio...
In this paper we present a comprehensive and detailed analysis of carrier/exciton wave function exte...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Single self-assembled semiconductor quantum dots (QDs) are able to emit single-photons and entangled...
This thesis deals with cross-sectional scanning tunneling microscopy analyses on III/V and II/VI sem...
Self-organized quantum dots provide great promise for many novel electronic and optoelectronic devic...
The realization of a two-dimensional electron gas in semiconductor heterostructures due to advanced ...
In this article we examine the strain energy and intersubband optical transitions in self-assembled ...
Solution processed materials, such as organic molecules and semiconductor quantum dots (QDs), have b...
This thesis addresses two classes of ultra small devices where dimensions in all three directions ap...
Low dimensional structures (LDS) form a major new branch of physics research. They are semiconductor...
The notion of low dimensionality becomes more than a pure mathematical ideal, as scaling of modern e...
Continued miniaturization of electronic devices is the primary cause for improvement of both speed a...
This work is motivated by the prospect of building a quantum computer: a device that would allow phy...
A detailed optical characterisation of (1.3 )InAs quantum-dot-in-well (DWELL) laser structures, is d...
The serious limitations in down-sizing conventional MOS devices motivate us to develop novel functio...
In this paper we present a comprehensive and detailed analysis of carrier/exciton wave function exte...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Single self-assembled semiconductor quantum dots (QDs) are able to emit single-photons and entangled...
This thesis deals with cross-sectional scanning tunneling microscopy analyses on III/V and II/VI sem...
Self-organized quantum dots provide great promise for many novel electronic and optoelectronic devic...
The realization of a two-dimensional electron gas in semiconductor heterostructures due to advanced ...
In this article we examine the strain energy and intersubband optical transitions in self-assembled ...
Solution processed materials, such as organic molecules and semiconductor quantum dots (QDs), have b...