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... In classical computation, there are a of number problems that cannot be solved with efficient algorithms. For example, the best classical algorithm for factorizing a large integer N increases exponentially with the size of the integer. If we continue to increase the size of the integer, it does not ...
... In classical computation, there are a of number problems that cannot be solved with efficient algorithms. For example, the best classical algorithm for factorizing a large integer N increases exponentially with the size of the integer. If we continue to increase the size of the integer, it does not ...
Lecture 6: QUANTUM CIRCUITS 1. Simple Quantum Circuits We`ve
... is scanned to extract sufficient information to recreate the original, the information is transmitted and an exact replica is re-assembled at the destination out of the material is locally available. Of course, we are hardly at the point of being able to teleport in this manner an entire person, eve ...
... is scanned to extract sufficient information to recreate the original, the information is transmitted and an exact replica is re-assembled at the destination out of the material is locally available. Of course, we are hardly at the point of being able to teleport in this manner an entire person, eve ...
Like other physical theories, quantum mechanics deals with
... extent such a view is correct in all cases is far from clear. In well-behaved physical systems, solutions to Newton’s Equation of Motion exist and are unique, and problematic cases are usually solved by appealing to physical intuition (Symon, K. R., (1960): 23-4). Nevertheless, it is possible to co ...
... extent such a view is correct in all cases is far from clear. In well-behaved physical systems, solutions to Newton’s Equation of Motion exist and are unique, and problematic cases are usually solved by appealing to physical intuition (Symon, K. R., (1960): 23-4). Nevertheless, it is possible to co ...
Quantum computation and quantum information
... consisting of m CNOT and single qubit gates with an accuracy only about O[m*log(m/)] gate operations are required (Solovay-Kitaev theorem). • This does not sound too bad! • The problem is that of the order 22n gates are required to implement an arbitrary n-qubit unitary operation (see page 191-1 ...
... consisting of m CNOT and single qubit gates with an accuracy only about O[m*log(m/)] gate operations are required (Solovay-Kitaev theorem). • This does not sound too bad! • The problem is that of the order 22n gates are required to implement an arbitrary n-qubit unitary operation (see page 191-1 ...
Living in a Quantum World
... to each other, preventing arbitrary lines from being drawn between them. Quantum mechanics says that a radioactive atom can be both decayed and not decayed at the same time. If the atom is linked to a bottle of cat poison, so that the cat dies if the atom decays, then the animal gets left in the sam ...
... to each other, preventing arbitrary lines from being drawn between them. Quantum mechanics says that a radioactive atom can be both decayed and not decayed at the same time. If the atom is linked to a bottle of cat poison, so that the cat dies if the atom decays, then the animal gets left in the sam ...
ppt - Harvard Condensed Matter Theory group
... Boundary sine-Gordon model Exact solution due to Ghoshal and Zamolodchikov (93) Applications to quantum impurity problem: Fendley, Saleur, Zamolodchikov, Lukyanov,… ...
... Boundary sine-Gordon model Exact solution due to Ghoshal and Zamolodchikov (93) Applications to quantum impurity problem: Fendley, Saleur, Zamolodchikov, Lukyanov,… ...
QUANTUM ENTANGLEMENT
... Einstein didn’t believe this: “God does not play dice with the universe”. Simple example: A single photon incident on a beam splitter (half-silvered mirror): ...
... Einstein didn’t believe this: “God does not play dice with the universe”. Simple example: A single photon incident on a beam splitter (half-silvered mirror): ...