Holonomic quantum computation with neutral atoms
... whether one could take advantage of this geometric features to the aim of processing quantum information. Indeed one would expect the above-mentioned robustness to result in a resilience against some kinds of errors. In other terms a geometry-based strategy for quantum manipulations is expected to h ...
... whether one could take advantage of this geometric features to the aim of processing quantum information. Indeed one would expect the above-mentioned robustness to result in a resilience against some kinds of errors. In other terms a geometry-based strategy for quantum manipulations is expected to h ...
Quantum Computers
... developed, was only able to do some simple calculations by using the principle of nuclear magnetic resonance NMR. ...
... developed, was only able to do some simple calculations by using the principle of nuclear magnetic resonance NMR. ...
Quantum Mechanical Operators and Commutation C I. Bra
... The physical implications of the commutation of two operators are very important because they have to do with what pairs of measurements can be made without interfering with one another. For example, the fact that the x coordinate operator x= x and its momentum operator px = -ih ∂/∂x do not commute ...
... The physical implications of the commutation of two operators are very important because they have to do with what pairs of measurements can be made without interfering with one another. For example, the fact that the x coordinate operator x= x and its momentum operator px = -ih ∂/∂x do not commute ...
Black-body Radiation & the Quantum Hypothesis
... in any arbitrary amounts, but only in discrete “quantum” amounts. The energy of a “quantum” depends on frequency as ...
... in any arbitrary amounts, but only in discrete “quantum” amounts. The energy of a “quantum” depends on frequency as ...
chem3322_metaphysics.. - The University of Texas at Dallas
... Suppose that you put one of Wigner’s friends in the box with the cat. The “measurement” you make at a given time is to ask Wigner's friend if the cat is dead or alive. If we consider the friend as part of the experimental setup, quantum mechanics predicts that before you ask Wigner's friend whether ...
... Suppose that you put one of Wigner’s friends in the box with the cat. The “measurement” you make at a given time is to ask Wigner's friend if the cat is dead or alive. If we consider the friend as part of the experimental setup, quantum mechanics predicts that before you ask Wigner's friend whether ...
NEW COVER SLIDE- qinfo with p & a
... Daniel Lidar, Janos Bergou, Mark Hillery, John Sipe, Paul Brumer, Howard Wiseman ...
... Daniel Lidar, Janos Bergou, Mark Hillery, John Sipe, Paul Brumer, Howard Wiseman ...
Derivation of the Pauli Exclusion Principle
... In generally, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is origin of quantization of the azimuthal quantum number i.e. the angular momentum quantum number. Here, on the base of the theory ...
... In generally, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is origin of quantization of the azimuthal quantum number i.e. the angular momentum quantum number. Here, on the base of the theory ...
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... • Generalization of the algebraic description of classical and quantum physics • A framework for a theory of observables (propositions) for any system which “has enough internal structure to be a possible object of a meaningful study”. • No Hilbert-space of states, no a priori probability interpreta ...
... • Generalization of the algebraic description of classical and quantum physics • A framework for a theory of observables (propositions) for any system which “has enough internal structure to be a possible object of a meaningful study”. • No Hilbert-space of states, no a priori probability interpreta ...
Physical Chemistry (4): Theoretical Chemistry
... Other quantities, like the position of a particle (x̂f (x) = xf (x)) and momentum (p̂x eipx = h̄ p eipx ), are not quantized and these quantities can change by arbitrary amount. It is said that they possess continuous spectrum. What do we get if we measure the quantity (A) corresponding to operator ...
... Other quantities, like the position of a particle (x̂f (x) = xf (x)) and momentum (p̂x eipx = h̄ p eipx ), are not quantized and these quantities can change by arbitrary amount. It is said that they possess continuous spectrum. What do we get if we measure the quantity (A) corresponding to operator ...