Reliable quantum computers
... of the future will be like; surely, it will be much different from the sort of hardware that experimental physicists are investigating these days. But of one thing we can be quite confident-that a practical quantum computer will incorporate some type of error correction into its operation. Quantum c ...
... of the future will be like; surely, it will be much different from the sort of hardware that experimental physicists are investigating these days. But of one thing we can be quite confident-that a practical quantum computer will incorporate some type of error correction into its operation. Quantum c ...
Circuit QED: Superconducting Qubits Coupled to
... antenna. Similarly, the currents and voltages in an ordinary transistor circuit need not be treated as non-commuting quantum operators in order to understand the operation of the circuit. Its degrees of freedom are, for all intents and purposes, classical. These lectures are devoted to understanding ...
... antenna. Similarly, the currents and voltages in an ordinary transistor circuit need not be treated as non-commuting quantum operators in order to understand the operation of the circuit. Its degrees of freedom are, for all intents and purposes, classical. These lectures are devoted to understanding ...
Chapter 3: Quantum Computing
... except an upper bound is imposed on both the intensity to do the sensing (which again is an arbitrarily small multiplicative factor of the input intensity) whether or not the obstructing body is present. A quantum optical method for IFS (but not IFM) may be used to do I/O with bandwidth reduced by a ...
... except an upper bound is imposed on both the intensity to do the sensing (which again is an arbitrarily small multiplicative factor of the input intensity) whether or not the obstructing body is present. A quantum optical method for IFS (but not IFM) may be used to do I/O with bandwidth reduced by a ...
Quantum field theory correlators at very short and very long distances
... On tiny scales, spacetime looks like Minkowski spacetime. Therefore, questions related to the nature of elementary particles (especially to collider-type experiments) can be dealt with in the framework of this special background ...
... On tiny scales, spacetime looks like Minkowski spacetime. Therefore, questions related to the nature of elementary particles (especially to collider-type experiments) can be dealt with in the framework of this special background ...
Quantum Information Processing: Algorithms, Technologies and
... reduced by an arbitrarily small multiplicative factor of the bandwidth required for classical (e.g., conventional optical or electronic) I/O methods Reif [98] proves there is no method for IFS with unitary transformations, and so concludes I/O bandwidth can not be significantly reduced by such quant ...
... reduced by an arbitrarily small multiplicative factor of the bandwidth required for classical (e.g., conventional optical or electronic) I/O methods Reif [98] proves there is no method for IFS with unitary transformations, and so concludes I/O bandwidth can not be significantly reduced by such quant ...
2-dimensional “particle-in-a-box” problems
... a system there exist multiple dynamical paths (x, t) ←−−−−− (y, 0), which is to say: the action functional S[path] possesses multiple extrema; in addition to the “direct” path there are “n-bounce paths” of two types—those that bounce first off the barrier at x = 0 and those that bounce first off the bar ...
... a system there exist multiple dynamical paths (x, t) ←−−−−− (y, 0), which is to say: the action functional S[path] possesses multiple extrema; in addition to the “direct” path there are “n-bounce paths” of two types—those that bounce first off the barrier at x = 0 and those that bounce first off the bar ...
DECOHERENCE AND DYNAMICAL DECOUPLING IN SOLID-STATE SPIN QUBITS Wayne Martin Witzel
... difference between classical and quantum information. Classical information is represented by a sequence of ones and zeroes, each known as a bit. Today’s digital computers process these bits using binary logic and the result is quite powerful. According to the quantum theory of physics, however, nat ...
... difference between classical and quantum information. Classical information is represented by a sequence of ones and zeroes, each known as a bit. Today’s digital computers process these bits using binary logic and the result is quite powerful. According to the quantum theory of physics, however, nat ...
URL - StealthSkater
... A. The notion of Super Kac-Moody algebra generalizes since instead of 2-D complex space one has 3-D light-like surface. Algebra extends dramatically. Kac-Moody algebras are based on finite Lie algebras. Now finite Lie algebra is replaced with certain infinite-D symplectic algebra. A further generali ...
... A. The notion of Super Kac-Moody algebra generalizes since instead of 2-D complex space one has 3-D light-like surface. Algebra extends dramatically. Kac-Moody algebras are based on finite Lie algebras. Now finite Lie algebra is replaced with certain infinite-D symplectic algebra. A further generali ...
Wormholes in Spacetime and the Constants of Nature
... and that the wormholes have two essential properties: (i) Wormholes have a characteristic "thickness" R w. This thickness is presumably of order the Planck length M ~ , the characteristic length scale of gravitational quantum fluctuations. We assume that wormholes much thicker than R w are rare and ...
... and that the wormholes have two essential properties: (i) Wormholes have a characteristic "thickness" R w. This thickness is presumably of order the Planck length M ~ , the characteristic length scale of gravitational quantum fluctuations. We assume that wormholes much thicker than R w are rare and ...
Terahertz driven intraband dynamics of excitons in nanorods Fredrik Sy
... Quantum dots and nanorods are becoming increasingly important structures due to their potential applications that range from photovoltaic devices to medicine. The majority of the research on carrier dynamics in these structures has been in the optical regime, with little work performed at Terahertz ...
... Quantum dots and nanorods are becoming increasingly important structures due to their potential applications that range from photovoltaic devices to medicine. The majority of the research on carrier dynamics in these structures has been in the optical regime, with little work performed at Terahertz ...
Wholeness and the Implicate Order
... cosmology. To meet the challenge before us our notions of cosmology and of the general nature of reality must have room in them to permit a consistent account of consciousness. Vice versa, our notions of consciousness must have room in them to understand what it means for its content to be ‘reality ...
... cosmology. To meet the challenge before us our notions of cosmology and of the general nature of reality must have room in them to permit a consistent account of consciousness. Vice versa, our notions of consciousness must have room in them to understand what it means for its content to be ‘reality ...