Quantum Control
... O. A. Mukhanov and V. K. Semenov, A Novel Way of Digital Information Processing in Josephson Junctions Circuits: Department of Physics, Moscow State University, 1985. ...
... O. A. Mukhanov and V. K. Semenov, A Novel Way of Digital Information Processing in Josephson Junctions Circuits: Department of Physics, Moscow State University, 1985. ...
PPT
... Plinko! A marble is released from the same starting point each time. Classical physics says identical systems with exactly the same initial conditions always lead to the same final result, in a deterministic and repeatable way. Is the distribution of final outcomes for the Plinko game (played 300 t ...
... Plinko! A marble is released from the same starting point each time. Classical physics says identical systems with exactly the same initial conditions always lead to the same final result, in a deterministic and repeatable way. Is the distribution of final outcomes for the Plinko game (played 300 t ...
Time in Quantum Theory
... However, since realistic Hamiltonians possess a ground state, their spectra are bounded from below, and a time operator obeying this commutation relation cannot possess a spectrum represented by all real numbers (as pointed out by Wolfgang Pauli [2]). It may nonetheless be related to time intervals ...
... However, since realistic Hamiltonians possess a ground state, their spectra are bounded from below, and a time operator obeying this commutation relation cannot possess a spectrum represented by all real numbers (as pointed out by Wolfgang Pauli [2]). It may nonetheless be related to time intervals ...
Exponential complexity and ontological theories of quantum
... Born’s statistical interpretation and classical analogue of the exponential complexity The wave function is not a real field, but a mathematical object which enables one to evaluate the probabilities of events. |(x1, x2,…,xN)|2=(x1, x2,…,xN) probability distribution The wave function contains t ...
... Born’s statistical interpretation and classical analogue of the exponential complexity The wave function is not a real field, but a mathematical object which enables one to evaluate the probabilities of events. |(x1, x2,…,xN)|2=(x1, x2,…,xN) probability distribution The wave function contains t ...
Another version - Scott Aaronson
... principle it’s possible to have “quantum money,” where each bill includes qubits that are physically impossible to counterfeit. But how to verify a bill? ...
... principle it’s possible to have “quantum money,” where each bill includes qubits that are physically impossible to counterfeit. But how to verify a bill? ...
L14special - Particle Physics and Particle Astrophysics
... pinning the particle down to a specific energy or position or momentum, with every calculation we need to incorporate the probability associated with the measurement. We do this using OPERATORS such as the one below….. You are most familiar with using the TISE to find the specific energy levels asso ...
... pinning the particle down to a specific energy or position or momentum, with every calculation we need to incorporate the probability associated with the measurement. We do this using OPERATORS such as the one below….. You are most familiar with using the TISE to find the specific energy levels asso ...
Part IV
... Probability that a given qubit has no error in time t Probability that none of n qubits has an error in time t Let t be the time taken to perform a gate operation. For an efficient algorithm we might need n2 operations. The number of required gate operations tends to grow at least logarithmically in ...
... Probability that a given qubit has no error in time t Probability that none of n qubits has an error in time t Let t be the time taken to perform a gate operation. For an efficient algorithm we might need n2 operations. The number of required gate operations tends to grow at least logarithmically in ...
Universal resources for quantum information processing
... electrical devices where classical bits of information are routinely processed. A similar computation can happen at the quantum level as well: electrons, photons, and quantum systems in general can store and process quantum bits (qubits) of information. The extraordinary fact is that quantum systems ...
... electrical devices where classical bits of information are routinely processed. A similar computation can happen at the quantum level as well: electrons, photons, and quantum systems in general can store and process quantum bits (qubits) of information. The extraordinary fact is that quantum systems ...
