Power of Quantum Channels for Creating Quantum Correlations, M.Sc. Thesis Sharif University of Technology ; Karimipour, Vahid (Supervisor) ; Memarzadeh Esfahani, Laleh (Co-Advisor)
Abstract
In recent studies, it has been shown that entanglement is not the only kind of genuinely quantum correlation. There exist models of quantum computation that provide exponential speed up over the best known classical algorithms and don’t have any quantum entanglement. These models show that in some cases separable state can be very useful in quantum computing models. Look for a property that causes the performance of these scenarios, quantum correlation being one of the most important concepts, including but not limited to entanglement. Local noise can produce quantum correlations on an initially classically correlated state, provided that it is not represented by a unital or semiclassical...
Cataloging briefPower of Quantum Channels for Creating Quantum Correlations, M.Sc. Thesis Sharif University of Technology ; Karimipour, Vahid (Supervisor) ; Memarzadeh Esfahani, Laleh (Co-Advisor)
Abstract
In recent studies, it has been shown that entanglement is not the only kind of genuinely quantum correlation. There exist models of quantum computation that provide exponential speed up over the best known classical algorithms and don’t have any quantum entanglement. These models show that in some cases separable state can be very useful in quantum computing models. Look for a property that causes the performance of these scenarios, quantum correlation being one of the most important concepts, including but not limited to entanglement. Local noise can produce quantum correlations on an initially classically correlated state, provided that it is not represented by a unital or semiclassical...
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