INCONSISTENT HISTORIES REVEALED BY QUANTUM
... The wave function, upon “measurement,” gives rise not only to the particles’ position and momentum but to the entire spacetime region within which it could have resided. Hence the pre-spacetime interaction determines the distances between objects Hence attraction and repulsion ...
... The wave function, upon “measurement,” gives rise not only to the particles’ position and momentum but to the entire spacetime region within which it could have resided. Hence the pre-spacetime interaction determines the distances between objects Hence attraction and repulsion ...
When to use Quantum Probabilities in Quantum - gaips - INESC-ID
... by a state vector comprising the occurrence of all events. The probability of an event is given by the squared magnitude of the projection of this superposition state into the desired subspace. This geometric approach is very useful to explain paradoxical findings that involve order of effects. But ...
... by a state vector comprising the occurrence of all events. The probability of an event is given by the squared magnitude of the projection of this superposition state into the desired subspace. This geometric approach is very useful to explain paradoxical findings that involve order of effects. But ...
Quantum Computers
... In 1994 mathematician, Peter Shor discovered an algorithm that could factor large integers quickly on a quantum computer. ...
... In 1994 mathematician, Peter Shor discovered an algorithm that could factor large integers quickly on a quantum computer. ...
Many problems that take long time to solve on a deterministic Turing
... can be often be solved very quickly on a probabilistic Turing machine However there is a tradeoff between the time it takes to return an answer to a computation and the probability that the returned answer is correct ...
... can be often be solved very quickly on a probabilistic Turing machine However there is a tradeoff between the time it takes to return an answer to a computation and the probability that the returned answer is correct ...
Introduction to Quantum Entanglement
... The recent development of quantum information theory showed wide practical applications of entanglement. Entanglement became the basis for quantum information processing and is used in quantum cryptography, quantum teleportation, quantum error correction codes and quantum computation. This paper is ...
... The recent development of quantum information theory showed wide practical applications of entanglement. Entanglement became the basis for quantum information processing and is used in quantum cryptography, quantum teleportation, quantum error correction codes and quantum computation. This paper is ...
A quantum thermal machine
... the coupling to the machine M. We can think of the time dependent Hamiltonian for the system as describing the system upon which the machine does work, periodically raising and lowering the energy difference between the two states. If the system starts in state |0> it remains there unless the therma ...
... the coupling to the machine M. We can think of the time dependent Hamiltonian for the system as describing the system upon which the machine does work, periodically raising and lowering the energy difference between the two states. If the system starts in state |0> it remains there unless the therma ...
PPT - Fernando Brandao
... The main idea is to connect the convertibility of resource states to the distinguishability of resource states from nonresource ones Basically, if a resource theory is such that we can distinguish, by measurements, many copies of a resource state from nonresource states pretty well, then the the ...
... The main idea is to connect the convertibility of resource states to the distinguishability of resource states from nonresource ones Basically, if a resource theory is such that we can distinguish, by measurements, many copies of a resource state from nonresource states pretty well, then the the ...
Lecture Notes, Feb 29
... its wavefunction. To describe a particle at a given position in the language of quantum mechanics, we would need to find a wavefunction that is extremely high near that position and zero elsewhere. The wavefunction would resemble a very tall and very thin tower. None of the wavefunctions we have see ...
... its wavefunction. To describe a particle at a given position in the language of quantum mechanics, we would need to find a wavefunction that is extremely high near that position and zero elsewhere. The wavefunction would resemble a very tall and very thin tower. None of the wavefunctions we have see ...
