Quantum computing and quantum information science are two recently discovered and rapidly growing fields of physics that show substantial promise in providing new and valuable technologies in the foreseeable future. Large-scale quantum computers, if ever realized experimentally, are likely to outperform their classical counterparts in a number of important computational tasks, the most important of which may be the accurate simulation of many-body quantum systems such as the ones encountered in physics, chemistry and life sciences. This thesis investigates the problem of controlling quantum systems for the purpose of performing quantum information processing tasks. The problem is approached from a theoretical and simulational viewpoint. Th...
Quantum circuits currently constitute a dominant model for quantum computation. Our work addresses t...
Large-scale quantum computers can solve certain problems that are not tractable by currently availab...
Quantum physics tells of our reality being probabilistic at the microscopic level. Expanding on that...
Quantum computing and quantum information science are two recently discovered and rapidly growing fi...
A doctoral dissertation completed for the degree of Doctor of Science (Technology) to be defended, ...
The last two decades have seen an enormous increase in the computational power of digital computers....
Recent advances in the development of quantum technology have made it possible to run small quantum ...
A quantum computer would exploit the phenomena of quantum superposition and entanglement in its func...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
Accurate control of a quantum system is complicated to achieve partly due to the system being couple...
Quantum computers store and manipulate information in individual quantized energy levels. These devi...
The field of quantum computing can feel unintuitive and riddled with math for the uninitiated. Sever...
In circuit quantum electrodynamics the coherence of Cooper pairs in superconductors is employed to c...
For several decades it has been appreciated that quantum computers hold incredible promise to perfor...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
Quantum circuits currently constitute a dominant model for quantum computation. Our work addresses t...
Large-scale quantum computers can solve certain problems that are not tractable by currently availab...
Quantum physics tells of our reality being probabilistic at the microscopic level. Expanding on that...
Quantum computing and quantum information science are two recently discovered and rapidly growing fi...
A doctoral dissertation completed for the degree of Doctor of Science (Technology) to be defended, ...
The last two decades have seen an enormous increase in the computational power of digital computers....
Recent advances in the development of quantum technology have made it possible to run small quantum ...
A quantum computer would exploit the phenomena of quantum superposition and entanglement in its func...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2016.Cataloged from PD...
Accurate control of a quantum system is complicated to achieve partly due to the system being couple...
Quantum computers store and manipulate information in individual quantized energy levels. These devi...
The field of quantum computing can feel unintuitive and riddled with math for the uninitiated. Sever...
In circuit quantum electrodynamics the coherence of Cooper pairs in superconductors is employed to c...
For several decades it has been appreciated that quantum computers hold incredible promise to perfor...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
Quantum circuits currently constitute a dominant model for quantum computation. Our work addresses t...
Large-scale quantum computers can solve certain problems that are not tractable by currently availab...
Quantum physics tells of our reality being probabilistic at the microscopic level. Expanding on that...