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Nanophotonics I: quantum theory of microcavities Paul Eastham
... Photonics is part of the modern science of light primarily concerned with the control, generation, and manipulation of optical signals. The wave lengths of this light are usually on the order of 1 µm = 1000 nm, so at first sight the relevance of nanoscale physics might appear strained. Nonetheless, ...
... Photonics is part of the modern science of light primarily concerned with the control, generation, and manipulation of optical signals. The wave lengths of this light are usually on the order of 1 µm = 1000 nm, so at first sight the relevance of nanoscale physics might appear strained. Nonetheless, ...
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... can modify such superposition states simultaneously, allowing some quantum algorithms to perform faster than their classical counterparts. Quantum states also exhibit other properties such as entanglement, which causes the state of two qubits to be dependent on each other, and no-cloning, which rest ...
... can modify such superposition states simultaneously, allowing some quantum algorithms to perform faster than their classical counterparts. Quantum states also exhibit other properties such as entanglement, which causes the state of two qubits to be dependent on each other, and no-cloning, which rest ...
Fermi liquid
... 1. Quantum critical electron systems and the great questions of condensed matter physics 2. Hairy black holes versus zero temperature entropy in quantum critical heavy fermion systems. ...
... 1. Quantum critical electron systems and the great questions of condensed matter physics 2. Hairy black holes versus zero temperature entropy in quantum critical heavy fermion systems. ...
Polarized excitons in nanorings and the optical Aharonov
... with the conductance of nanostructures. However, optical response in solids is determined by neutral excitations, for which no sensitivity to magnetic flux would be expected. We propose a mechanism for the topological phase of a neutral particle, a polarized exciton confined to a semiconductor quant ...
... with the conductance of nanostructures. However, optical response in solids is determined by neutral excitations, for which no sensitivity to magnetic flux would be expected. We propose a mechanism for the topological phase of a neutral particle, a polarized exciton confined to a semiconductor quant ...
Total time derivatives of operators in elementary quantum mechanics
... which implies that the total derivative obeys the same algebraic rules as ordinary derivatives. Because this total time derivative is not defined to be a rate of change of anything, some may prefer to use a different symbol for it, for example, D t instead of d/dt, but the latter notation will be us ...
... which implies that the total derivative obeys the same algebraic rules as ordinary derivatives. Because this total time derivative is not defined to be a rate of change of anything, some may prefer to use a different symbol for it, for example, D t instead of d/dt, but the latter notation will be us ...
Thermodynamic framework for the ground state of a
... by a diagonal matrix, is well established within both quantum mechanics [1] and BG statistical mechanics [4–6], following the third law of thermodynamics, i.e., SBG = 0. Herein, it is shown that the introduction of the perturbation λV̂ (λ > 0) in the Hamiltonian may affect qualitatively the ground s ...
... by a diagonal matrix, is well established within both quantum mechanics [1] and BG statistical mechanics [4–6], following the third law of thermodynamics, i.e., SBG = 0. Herein, it is shown that the introduction of the perturbation λV̂ (λ > 0) in the Hamiltonian may affect qualitatively the ground s ...
The Free Particle (PowerPoint)
... The dual nature of matter (Quick Time movie 9 MB from Wilson group, *** ) Linear polarized light ( a wave function in 1-D would propagate in a similar way) (1 MB Quick time movie from the Wilson Group, *****) Circular polarized light ( ( a wave function could propagate in a similar way) (6 MB Quick ...
... The dual nature of matter (Quick Time movie 9 MB from Wilson group, *** ) Linear polarized light ( a wave function in 1-D would propagate in a similar way) (1 MB Quick time movie from the Wilson Group, *****) Circular polarized light ( ( a wave function could propagate in a similar way) (6 MB Quick ...
NON-RELATIVISTIC QUANTUM MECHANICS - Philsci
... anything about the relative importance of the issues, but is an attempt to redress a relative lack of coverage in certain circles. Much of the material presented here—especially from §4,§5, and §6—is largely my review of standard material that can be found in many places. I have therefore chosen not ...
... anything about the relative importance of the issues, but is an attempt to redress a relative lack of coverage in certain circles. Much of the material presented here—especially from §4,§5, and §6—is largely my review of standard material that can be found in many places. I have therefore chosen not ...
Fidelity as a figure of merit in quantum error correction
... hand, logical code words are allowed to interact with a reservoir system, such errors can approximately be corrected if criteria given in [10] are satisfied, reaching a fidelity of the same order (in the error rate) as the reversible case. Other codes take advantage of the fact that in addition to c ...
... hand, logical code words are allowed to interact with a reservoir system, such errors can approximately be corrected if criteria given in [10] are satisfied, reaching a fidelity of the same order (in the error rate) as the reversible case. Other codes take advantage of the fact that in addition to c ...
Learning station V: Predicting the hydrogen emission lines with a
... It was well-known that atoms can emit light and we can observe that the spectrum of an element is composed by very precise discrete emission lines. However, this phenomenon cannot be explained by a classical atomic model, like e.g. Rutherford’s. Classical physics cannot explain how discrete colour l ...
... It was well-known that atoms can emit light and we can observe that the spectrum of an element is composed by very precise discrete emission lines. However, this phenomenon cannot be explained by a classical atomic model, like e.g. Rutherford’s. Classical physics cannot explain how discrete colour l ...
Electronic Structure of Multi-Electron Quantum Dots
... Quantum dots are artificially fabricated atoms, in which charge carriers are confined in all three dimensions just like electrons in real atoms. Consequently, they exhibit properties normally associated with real atoms such as quantised energy levels and shell structures. These properties are descri ...
... Quantum dots are artificially fabricated atoms, in which charge carriers are confined in all three dimensions just like electrons in real atoms. Consequently, they exhibit properties normally associated with real atoms such as quantised energy levels and shell structures. These properties are descri ...
Sunday 07 December Monday 08 December AIPC 2014 Conference Program (draft)
... CPT and Lorentz symmetry ...
... CPT and Lorentz symmetry ...
The general structure of quantum resource theories
... resources – are not independent of each other. For example, the restricted set of operations must be such that it does not generate resources from free states (otherwise, it can not be called a resource theory). Therefore, any assumption being made on one of these ingredients effects the others. Bel ...
... resources – are not independent of each other. For example, the restricted set of operations must be such that it does not generate resources from free states (otherwise, it can not be called a resource theory). Therefore, any assumption being made on one of these ingredients effects the others. Bel ...
Document
... operator are the total energy of the system The temporal function describes the variation of the potential energy with ...
... operator are the total energy of the system The temporal function describes the variation of the potential energy with ...