Von Neumann`s Impossibility Proof: Mathematics in - Philsci
Von Neumann`s Impossibility Proof: Mathematics in - Philsci

Coherent manipulations of charge-number states in a Cooper-pair box Y. Nakamura,
Coherent manipulations of charge-number states in a Cooper-pair box Y. Nakamura,

Phase Shifting of an Interferometer using Nonlocal Quantum-State Correlations
Phase Shifting of an Interferometer using Nonlocal Quantum-State Correlations

Classical analogy of Fano resonances
Classical analogy of Fano resonances

Fractional excitations in the square lattice quantum antiferromagnet
Fractional excitations in the square lattice quantum antiferromagnet

Testing the foundations of classical entropy
Testing the foundations of classical entropy

as a PDF
as a PDF

Nuclear lattice model and the electronic configuration
Nuclear lattice model and the electronic configuration

Spin Squeezing, Entanglement and Quantum Metrology
Spin Squeezing, Entanglement and Quantum Metrology

Generation of highly entangled photon pairs for continuous variable
Generation of highly entangled photon pairs for continuous variable

Introduction to Quantum Information Science
Introduction to Quantum Information Science

... the photoelectric eect, and Bohr used it with de Broglie's matter wave hypothesis to explain the stability of atoms. A small snowball was set in motion down the mountain of physics leading to the successful explanation of all of these phenomena and more, as well as the formal construction of Quantu ...
Multiverse or Universe, after all
Multiverse or Universe, after all

... As I have already mentioned, Deutsch (2011) has dropped his earlier metaphor of “shadow realities”. Instead he uses a new concept – “multiversal object” (ibid., 293): • “Thanks to the strong internal interference that is continuously undergoing [in a quantum state], a typical electron is an irreduci ...
Quantum Computing - Department of Computing
Quantum Computing - Department of Computing

... Quantum mechanics is a very accurate description of nature as it predicts quantum effects up to an astonishing precision of 14 decimal places. But we do not know why nature works like that and why quantum mechanics gives such a good description of nature. In other words, quantum mechanics tells us h ...
CT-Invariant Quantum Spin Hall Effect in Ferromagnetic Graphene
CT-Invariant Quantum Spin Hall Effect in Ferromagnetic Graphene

... spin-down carriers are simultaneously either electronlike or holelike and move in the same direction. On the other hand, while j0 j < jMj with ð" ; # Þ ¼ ðþ; Þ or (  , þ), the Fermi energy EF is located between 0 þ M and 0  M, the longitudinal resistance R14;23 emerges since now the spin-up ...
Quantum mechanical modeling of the CNOT (XOR) gate
Quantum mechanical modeling of the CNOT (XOR) gate

history of quantum computing
history of quantum computing

Shell Model Approach to Nuclear Reactions
Shell Model Approach to Nuclear Reactions

Spontaneous Formation of Magnetic Moments and Dephasing in Two-Dimensional Disordered Systems
Spontaneous Formation of Magnetic Moments and Dephasing in Two-Dimensional Disordered Systems

Historical Review of Quantum Mechanics
Historical Review of Quantum Mechanics

Quantum Position Verification in the Random Oracle Model
Quantum Position Verification in the Random Oracle Model

Physics 452 - BYU Physics and Astronomy
Physics 452 - BYU Physics and Astronomy

Analogue gravity from field theory normal modes?
Analogue gravity from field theory normal modes?

... It is important to realize just how general the result is (and where the limitations are): it works for any Lagrangian depending only on a single scalar field and its first derivatives. The linearized PDE will be hyperbolic (and so the linearized equations will have wave-like solutions) if and only ...
course syllabus
course syllabus

Fractional Spin Liquid Hierarchy for Spin S
Fractional Spin Liquid Hierarchy for Spin S

Application of Quantum Computing principles to Natural Language Processing
Application of Quantum Computing principles to Natural Language Processing

EPR paradox