In this master thesis, a 2D device simulator run on a hybrid classical-quantum computer was developed. The simulator was developed to treat statistical quantum effects such as quantum tunneling and quantum confinement in nanoscale transistors. The simulation scheme is based on a self-consistent solution of the coupled non-linear 2D SchrödingerPoisson equations. The Open Boundary Condition (OBC) of the Schrödinger equation, which allows for electrons to pass through the device between the leads (source and drain), are modeled with the QuantumTransmitting Boundary Method (QTBM). The differential equations are discretized with the finite-element method, using rectangular mesh elements. The self-consistent loop is a very time-consuming process,...
This paper introduces the main numerical issues related to the simulation of electronic states in hi...
Numerical simulations of physical systems are found in many industries, as they currently play a cru...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
For quantum computers, there are two theoretical models which are nowadays considered to be the most...
A quantum computer (QC) is a device that performs operations according to the rules of quantum theor...
In the current technology node, purely classical numerical simulators lack the precision needed to o...
Simulating quantum systems is a hard computational problem as resource requirements grow exponential...
Quantum computers are being developed to solve certain problems faster than classical computers. Ins...
Quantum-mechanical phenomena are playing an increasing role in information processing as transistor ...
Quantum computation is a theoretical computation model that processes information in a quantum mecha...
Among the many computational models for quantum computing, the Quantum Circuit Model is the most wel...
Undesirable short-channel effects associated with the relentless downscaling of conventional CMOS de...
A two-dimensional (2D) full band self-consistent ensemble Monte Carlo (MC) method for solving the qu...
This paper presents a novel scheme to incorporate quantum effect in classical hydrodynamic model. Th...
The output characteristics and the electronic behaviour of a quantum wire transistor (QWT) with a 1D...
This paper introduces the main numerical issues related to the simulation of electronic states in hi...
Numerical simulations of physical systems are found in many industries, as they currently play a cru...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
For quantum computers, there are two theoretical models which are nowadays considered to be the most...
A quantum computer (QC) is a device that performs operations according to the rules of quantum theor...
In the current technology node, purely classical numerical simulators lack the precision needed to o...
Simulating quantum systems is a hard computational problem as resource requirements grow exponential...
Quantum computers are being developed to solve certain problems faster than classical computers. Ins...
Quantum-mechanical phenomena are playing an increasing role in information processing as transistor ...
Quantum computation is a theoretical computation model that processes information in a quantum mecha...
Among the many computational models for quantum computing, the Quantum Circuit Model is the most wel...
Undesirable short-channel effects associated with the relentless downscaling of conventional CMOS de...
A two-dimensional (2D) full band self-consistent ensemble Monte Carlo (MC) method for solving the qu...
This paper presents a novel scheme to incorporate quantum effect in classical hydrodynamic model. Th...
The output characteristics and the electronic behaviour of a quantum wire transistor (QWT) with a 1D...
This paper introduces the main numerical issues related to the simulation of electronic states in hi...
Numerical simulations of physical systems are found in many industries, as they currently play a cru...
Quantum computing is one of the promising active areas in physics research. This is because of the p...