Aggregation Operations from Quantum Computing
... that quantum computing can be used to extend the class of fuzzy sets. The central idea associates the states of a quantum register to membership functions (mFs) of fuzzy subsets, and the rules for the processes of fuzzyfication are performed by unitary qTs. This paper introduces an interpretation of ...
... that quantum computing can be used to extend the class of fuzzy sets. The central idea associates the states of a quantum register to membership functions (mFs) of fuzzy subsets, and the rules for the processes of fuzzyfication are performed by unitary qTs. This paper introduces an interpretation of ...
Quantum Computational Complexity - Cheriton School of Computer
... are called the yes-instances and no-instances of the problem, and have answers yes and no, respectively. Languages may be viewed as promise problems that obey the additional constraint Ayes ∪ Ano = Σ∗ . Although complexity theory has traditionally focused on languages rather than promise problems, l ...
... are called the yes-instances and no-instances of the problem, and have answers yes and no, respectively. Languages may be viewed as promise problems that obey the additional constraint Ayes ∪ Ano = Σ∗ . Although complexity theory has traditionally focused on languages rather than promise problems, l ...
Basic Notions of Quantum Network Science
... Quantum Repeaters Entanglement Percolation in Quantum Networks Cascading dynamics in complex quantum networks Quantum Random Networks ...
... Quantum Repeaters Entanglement Percolation in Quantum Networks Cascading dynamics in complex quantum networks Quantum Random Networks ...
Quantum Correlations in Information Theory
... quantum entanglement, i.e. peculiar correlations described by quantum laws which are shared, for example, between the sender and the receiver of a message. However, it has been recently shown that entanglement is not the most general form of quantum correlations. Even unentangled states of compound ...
... quantum entanglement, i.e. peculiar correlations described by quantum laws which are shared, for example, between the sender and the receiver of a message. However, it has been recently shown that entanglement is not the most general form of quantum correlations. Even unentangled states of compound ...
Stationary two-atom entanglement induced by nonclassical two
... In expressions (3) and (4), µ̂ and r̂12 are unit vectors along the atomic transition dipole moments and the vector r12 = r2 − r1 , respectively, and k0 = ω0 /c. Later on, we will assume that the atomic dipole moments µ are perpendicular to the vector r12 joining the two atoms. The collective paramet ...
... In expressions (3) and (4), µ̂ and r̂12 are unit vectors along the atomic transition dipole moments and the vector r12 = r2 − r1 , respectively, and k0 = ω0 /c. Later on, we will assume that the atomic dipole moments µ are perpendicular to the vector r12 joining the two atoms. The collective paramet ...
Superconducting Circuits and Quantum Computation—T. P. Orlando
... Chapter 20. Superconducting Circuits and Quantum Computation Figure 1a shows a SEM image of the persistent current qubit (inner loop) and the measuring dc SQUID (outer) loop. A schematic of the qubit and the measuring circuit is shown in Figure 1b, where the Josephson junctions are denoted by x's. ...
... Chapter 20. Superconducting Circuits and Quantum Computation Figure 1a shows a SEM image of the persistent current qubit (inner loop) and the measuring dc SQUID (outer) loop. A schematic of the qubit and the measuring circuit is shown in Figure 1b, where the Josephson junctions are denoted by x's. ...
Quantum Annealing with Markov Chain Monte Carlo Simulations
... devices instead of electronic devices following classical physics and used by classical computers. Although general purpose quantum computers of practical scale may be many years away, special purpose quantum computers are being built with capabilities exceeding classical computers. One prominent ca ...
... devices instead of electronic devices following classical physics and used by classical computers. Although general purpose quantum computers of practical scale may be many years away, special purpose quantum computers are being built with capabilities exceeding classical computers. One prominent ca ...
Measurement Models for Quantum Zeno and anti
... the accompanying delocalization of phases then effectively destroys superpositions between macroscopically different states, so that the object appears to be in one or other of those states. Since a system in contact with an environment is generally in an entangled state with the latter it does not ...
... the accompanying delocalization of phases then effectively destroys superpositions between macroscopically different states, so that the object appears to be in one or other of those states. Since a system in contact with an environment is generally in an entangled state with the latter it does not ...
Three Puzzles about Bohr`s Correspondence Principle
... three stationary states apart. So, for example, there can be transitions from the n = 100 stationary state to the n = 99 or n = 97 stationary states; but there cannot be transitions from the n = 100 stationary state to the n = 98 stationary state, because there is no second harmonic in the classica ...
... three stationary states apart. So, for example, there can be transitions from the n = 100 stationary state to the n = 99 or n = 97 stationary states; but there cannot be transitions from the n = 100 stationary state to the n = 98 stationary state, because there is no second harmonic in the classica ...
Quantum Information Chapter 10. Quantum Shannon Theory
... same probability distribution X, we say that the letters are independent and identically distributed, abbreviated i.i.d. We’ll use X n to denote the ensemble of n-letter messages in which each letter is generated independently by sampling from X, and ~x = (x1 x2 . . . xn ) to denote a string of bits ...
... same probability distribution X, we say that the letters are independent and identically distributed, abbreviated i.i.d. We’ll use X n to denote the ensemble of n-letter messages in which each letter is generated independently by sampling from X, and ~x = (x1 x2 . . . xn ) to denote a string of bits ...
Quantum Computation: Theory and Implementation
... Submitted to the Department of Physics in Partial Fulfillment of the Requirements for the Degree of Bachelor of Science in Physics and to the Department of Electrical Engineering and Computer Science in Partial Fulfillment of the Requirements for the Degrees of Bachelor of Science in Electrical Engi ...
... Submitted to the Department of Physics in Partial Fulfillment of the Requirements for the Degree of Bachelor of Science in Physics and to the Department of Electrical Engineering and Computer Science in Partial Fulfillment of the Requirements for the Degrees of Bachelor of Science in Electrical Engi ...
Physics at the FQMT`04 conference
... classical and quantum features of microscopic and macroscopic states and their relation to the decoherence, dephasing, relaxation of systems, dissipation and quantum measurement problems is needed to understand behaviour of small ‘‘mesoscopic’’ systems. Since during measurements, systems can be very ...
... classical and quantum features of microscopic and macroscopic states and their relation to the decoherence, dephasing, relaxation of systems, dissipation and quantum measurement problems is needed to understand behaviour of small ‘‘mesoscopic’’ systems. Since during measurements, systems can be very ...