To harness the potential of quantum mechanics for quantum computation applications, one of the main challenges is to scale up the number of qubits. The work presented in this dissertation is concerned with several aspects that are relevant in the quest of scaling up quantum computing systems based on spin qubits in silicon. Few-qubit experiments are maturing quickly, but simultaneously the lacuna between them and large-scale quantum computers is filled with a combination of science and engineering challenges. The challenges that are addressed in this dissertation are reliable and reproducible sample fabrication, qubit resilience to temperature, spatial correlations in the noise affecting the qubits, and co-integration of qubits with classic...
Given the effectiveness of semiconductor devices for classical computation one is naturally led to c...
Given the effectiveness of semiconductor devices for classical computation one is naturally led to c...
As classical computers begin to reach their fundamental performance limits, quantum computers will b...
To harness the potential of quantum mechanics for quantum computation applications, one of the main ...
Quantum computing holds the promise of solving certain tasks faster than any classical computer. The...
A computer with quantum mechanical building blocks, or qubits, promises a new class of computational...
Benchmarking the performance of a quantum computer is of key importance in identifying and reducing ...
Quantum computers are expected to outperform conventional computers in several important application...
Quantum computers are expected to outperform conventional computers in several important application...
Large-scale quantum computers have the potential to perform calculations that are otherwise impossib...
Large-scale quantum computers have the potential to perform calculations that are otherwise impossib...
The greatest challenge in quantum computing is achieving scalability. Classical computing, which pre...
The greatest challenge in quantum computing is achieving scalability. Classical computing, which pre...
Quantum computing's greatest challenge is scaling up. Several decades ago, classical computers faced...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
Given the effectiveness of semiconductor devices for classical computation one is naturally led to c...
Given the effectiveness of semiconductor devices for classical computation one is naturally led to c...
As classical computers begin to reach their fundamental performance limits, quantum computers will b...
To harness the potential of quantum mechanics for quantum computation applications, one of the main ...
Quantum computing holds the promise of solving certain tasks faster than any classical computer. The...
A computer with quantum mechanical building blocks, or qubits, promises a new class of computational...
Benchmarking the performance of a quantum computer is of key importance in identifying and reducing ...
Quantum computers are expected to outperform conventional computers in several important application...
Quantum computers are expected to outperform conventional computers in several important application...
Large-scale quantum computers have the potential to perform calculations that are otherwise impossib...
Large-scale quantum computers have the potential to perform calculations that are otherwise impossib...
The greatest challenge in quantum computing is achieving scalability. Classical computing, which pre...
The greatest challenge in quantum computing is achieving scalability. Classical computing, which pre...
Quantum computing's greatest challenge is scaling up. Several decades ago, classical computers faced...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
Given the effectiveness of semiconductor devices for classical computation one is naturally led to c...
Given the effectiveness of semiconductor devices for classical computation one is naturally led to c...
As classical computers begin to reach their fundamental performance limits, quantum computers will b...