Add to ORKGRecent research interest in emerging logic systems based on quantum dots has been sparked by the experimental demonstration of nanometer-scale logic devices composed of atomically sized quantum dots made of silicon dangling bonds (SiDBs), along with the availability of SiQAD, a computer-aided design tool designed for this technology. Latest design automation frameworks have enabled the synthesis of SiDB circuits that reach the size of $32\times10^3\,\text{nm}^{2}$ -- orders of magnitude more complex than their hand-designed counterparts. However, current SiDB simulation engines do not take defects into account, which is important to consider for these sizable systems. This work proposes a formulation for incorporating fixed-charge simulatio...
We have investigated the behavior of bistable cells made up of four quantum dots and occupied by two...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Silicon spin qubits are among the most promising candidates for large scale quantum computers, due t...
The ability for dangling bonds (DBs) to encode bit-information and perform logic computation has bee...
The quality of quantum bits (qubits) in silicon is highly vulnerable to charge noise that is omni-pr...
The spin of an electron confined in semiconductor quantum dots is currently a promising candidate fo...
As mass-produced silicon transistors have reached the nano-scale, their behavior and performances ar...
We demonstrate the possibility of engineering a single donor transistor directly from a phosphorous ...
In this paper we present a computational procedure that utilizes real-space grids to obtain high pre...
Novel advancements in silicon dangling bond (SiDB) fabrication has led to logical circuitry at the a...
Quantum computing has become a thriving field over the past several decades. Although many candidate...
Suitably patterned arrays (blocks) of quantum-dot cellular automata (QCA) have been proposed as faul...
Quantum dots (QDs) are nanometer scale regions that can trap charges. In this dissertation I descri...
We characterize the quantum entanglement of the realistic two-qubit signals that are sensitive to ch...
Individual atoms and ions are now routinely manipulated using scanning tunnelling microscopes or ele...
We have investigated the behavior of bistable cells made up of four quantum dots and occupied by two...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Silicon spin qubits are among the most promising candidates for large scale quantum computers, due t...
The ability for dangling bonds (DBs) to encode bit-information and perform logic computation has bee...
The quality of quantum bits (qubits) in silicon is highly vulnerable to charge noise that is omni-pr...
The spin of an electron confined in semiconductor quantum dots is currently a promising candidate fo...
As mass-produced silicon transistors have reached the nano-scale, their behavior and performances ar...
We demonstrate the possibility of engineering a single donor transistor directly from a phosphorous ...
In this paper we present a computational procedure that utilizes real-space grids to obtain high pre...
Novel advancements in silicon dangling bond (SiDB) fabrication has led to logical circuitry at the a...
Quantum computing has become a thriving field over the past several decades. Although many candidate...
Suitably patterned arrays (blocks) of quantum-dot cellular automata (QCA) have been proposed as faul...
Quantum dots (QDs) are nanometer scale regions that can trap charges. In this dissertation I descri...
We characterize the quantum entanglement of the realistic two-qubit signals that are sensitive to ch...
Individual atoms and ions are now routinely manipulated using scanning tunnelling microscopes or ele...
We have investigated the behavior of bistable cells made up of four quantum dots and occupied by two...
Atomically precise donor-based quantum devices in silicon are a promising candidate for scalable sol...
Silicon spin qubits are among the most promising candidates for large scale quantum computers, due t...