Quantum Computing at the Speed of Light
... Harnessing quantum states for information storage and manipulation (in so called “qubits”) is the objective of quantum computing, with the potential to revolutionize technology in areas of great importance to society (e.g. cryptography, data base searching, quantum simulation of advance materials, s ...
... Harnessing quantum states for information storage and manipulation (in so called “qubits”) is the objective of quantum computing, with the potential to revolutionize technology in areas of great importance to society (e.g. cryptography, data base searching, quantum simulation of advance materials, s ...
Ex 2
... which may be constant states) and outputs (i.e., marked qubits to be measured at the end.) Show that the order in which the gates are operated on the input state of the circuit does not affect the final output state of the circuit, as long as this order corresponds to a topological order of the node ...
... which may be constant states) and outputs (i.e., marked qubits to be measured at the end.) Show that the order in which the gates are operated on the input state of the circuit does not affect the final output state of the circuit, as long as this order corresponds to a topological order of the node ...
Quantum Process Tomography: Theory and Experiment
... Pointer states. Lecture 2: Decoherence and disentanglement. Decoherence in quantum information processing. How to fight against decoherence? How to characterize decoherence? Quantum process ...
... Pointer states. Lecture 2: Decoherence and disentanglement. Decoherence in quantum information processing. How to fight against decoherence? How to characterize decoherence? Quantum process ...
Topological Insulators
... solid-state system such as a quantum dot in a semiconductor microcavity. Now two researchers have devised an experiment in which the quantum state of a single trapped atom will be entangled with that of a quantum dot through the intervention of a laser beam that serves as an interface between the tw ...
... solid-state system such as a quantum dot in a semiconductor microcavity. Now two researchers have devised an experiment in which the quantum state of a single trapped atom will be entangled with that of a quantum dot through the intervention of a laser beam that serves as an interface between the tw ...
Document
... which come from a simple analysis of the long-time scaling are confirmed. In particular we do not get the same phase diagram, as we now see … ...
... which come from a simple analysis of the long-time scaling are confirmed. In particular we do not get the same phase diagram, as we now see … ...
Q.M3 Home work 9 Due date 3.1.15 1
... Coherent state2 of a one-dimensional simple harmonic oscillator is defined to be an eigenstate of the (non-Hermitian) annihilation operator a: a|λi = λ|λi where λ is, in general, a complex number. Prove that: |λi = e−|λ| ...
... Coherent state2 of a one-dimensional simple harmonic oscillator is defined to be an eigenstate of the (non-Hermitian) annihilation operator a: a|λi = λ|λi where λ is, in general, a complex number. Prove that: |λi = e−|λ| ...
Department of Physics and Physical Oceanography Sigma Pi Sigma INDUCTION
... fuzzy. We can no longer make predictions with certainty. Nature is intrinsically probabilistic. Objects have no clear position unless we look at them. Despite its strangeness, the theory of quantum mechanics has been passing all experimental tests and has been confirming various bizarre predictions. ...
... fuzzy. We can no longer make predictions with certainty. Nature is intrinsically probabilistic. Objects have no clear position unless we look at them. Despite its strangeness, the theory of quantum mechanics has been passing all experimental tests and has been confirming various bizarre predictions. ...
Almost all decoherence models lead to shot noise scaling in
... Entanglement enhanced precision Hong-Ou-Mandel interference ...
... Entanglement enhanced precision Hong-Ou-Mandel interference ...
Quantum Information (QI) - BYU Physics and Astronomy
... How do I pass this 513R class? What will we do? CP, HW, IP, MT, F How do you communicate? Sources for QI? (Linear Algebra prerequisite) What is Linear Algebra? ...
... How do I pass this 513R class? What will we do? CP, HW, IP, MT, F How do you communicate? Sources for QI? (Linear Algebra prerequisite) What is Linear Algebra? ...
Concept of the Gibbsian ensemble
... Transition from classical to quantum statistics In classical mechanics a state of a system is determined by knowledge of position, q, and momentum, p. Dynamic evolution given by : trajectory in -space ...
... Transition from classical to quantum statistics In classical mechanics a state of a system is determined by knowledge of position, q, and momentum, p. Dynamic evolution given by : trajectory in -space ...
superposition - University of Illinois at Urbana
... - rate of evolution N also, theories based (e.g.) on special effects of gravity (Penrose, …) “macrorealism”: at level of “everyday life”, one state or the other always realized. ...
... - rate of evolution N also, theories based (e.g.) on special effects of gravity (Penrose, …) “macrorealism”: at level of “everyday life”, one state or the other always realized. ...