The central focus of this work is to make progress towards understanding entanglement as a resource for computation by examining the quantum correlations that can be extracted from stabilizer states. As such, we focus on the stabilizer formalism, local realism, and the convergence of the two
Large-scale quantum computation is likely to require massive quantum error correction (QEC). QEC cod...
This thesis studies four related projects: tuning entanglement for spin systems, de-coherence and dy...
The projected entangled pair state (PEPS) representation of quantum states on two-dimensional lattic...
We investigate how the stabilizer theory can be used for constructing sufficient conditions for enta...
Entanglement, as studied in quantum information science, and nonlocal quantum correlations, as studi...
Stabilizer states constitute a set of pure states which plays a dominant role in quantum error corre...
Entanglement are the non-local correlations permitted by quantum theory, believed to play a fundamen...
Entangled states represent correlations between two separate systems that are too precise to be repr...
Stabilizer states and graph states find application in quantum error correction, measurement-based q...
The outcomes of measurements on entangled quantum systems can be nonlocally correlated. However, whi...
How entangled is a randomly chosen bipartite stabilizer state? We show that if the number of qubits ...
We provide a solution to the problem of determining whether a target pure state can be asymptoticall...
Quantum entanglement is not only a fundamental concept in quantum mechanics but also a special resou...
In [Phys. Rev. A 58, 1833 (1998)] a family of polynomial invariants which separate the orbits of mul...
This thesis consolidates my research on several topics of quantum information. We start with an anal...
Large-scale quantum computation is likely to require massive quantum error correction (QEC). QEC cod...
This thesis studies four related projects: tuning entanglement for spin systems, de-coherence and dy...
The projected entangled pair state (PEPS) representation of quantum states on two-dimensional lattic...
We investigate how the stabilizer theory can be used for constructing sufficient conditions for enta...
Entanglement, as studied in quantum information science, and nonlocal quantum correlations, as studi...
Stabilizer states constitute a set of pure states which plays a dominant role in quantum error corre...
Entanglement are the non-local correlations permitted by quantum theory, believed to play a fundamen...
Entangled states represent correlations between two separate systems that are too precise to be repr...
Stabilizer states and graph states find application in quantum error correction, measurement-based q...
The outcomes of measurements on entangled quantum systems can be nonlocally correlated. However, whi...
How entangled is a randomly chosen bipartite stabilizer state? We show that if the number of qubits ...
We provide a solution to the problem of determining whether a target pure state can be asymptoticall...
Quantum entanglement is not only a fundamental concept in quantum mechanics but also a special resou...
In [Phys. Rev. A 58, 1833 (1998)] a family of polynomial invariants which separate the orbits of mul...
This thesis consolidates my research on several topics of quantum information. We start with an anal...
Large-scale quantum computation is likely to require massive quantum error correction (QEC). QEC cod...
This thesis studies four related projects: tuning entanglement for spin systems, de-coherence and dy...
The projected entangled pair state (PEPS) representation of quantum states on two-dimensional lattic...