The Oscillating Universe Theory - Scientific Research Publishing
The Oscillating Universe Theory - Scientific Research Publishing

Exploring a Classical Model of the Helium Atom
Exploring a Classical Model of the Helium Atom

... seen the autoionization of one of the electrons via a chaotic transient. Here, the "autoionization" is defined as the escape of an electron to infinity. Ionization is obtained through observation of each electron's energy. We define ionization as the condition in which one of the electrons maintains ...
Full characterization of polarization states of light via direct
Full characterization of polarization states of light via direct

... that a measurement of one variable of a system erases information about the corresponding conjugate variable. The classic example is that determining the position of a particle disturbs its momentum, and vice versa. These measurements, known as strong measurements, collapse the wavefunction such tha ...
Time Symmetry and the Many-Worlds Interpretation - Philsci
Time Symmetry and the Many-Worlds Interpretation - Philsci

Chapter 6
Chapter 6

... Matter Unified ISBN91-973818-4-5 ...
Full characterization of polarization states of light via direct
Full characterization of polarization states of light via direct

... that a measurement of one variable of a system erases information about the corresponding conjugate variable. The classic example is that determining the position of a particle disturbs its momentum, and vice versa. These measurements, known as strong measurements, collapse the wavefunction such tha ...
Chapter 6
Chapter 6

... Matter Unified ISBN91-973818-4-5 ...
The Quantum Measurement Problem: State of Play - Philsci
The Quantum Measurement Problem: State of Play - Philsci

... superpositions, and because only when we have such superpositions do we have any need to apply the Quantum Algorithm. But processes other than formal measurements — the amplification of classical chaos into quantum-mechanical indeterminateness, in particular — can also give rise to macroscopic super ...
Slides - cchem.berkeley.edu
Slides - cchem.berkeley.edu

Louis de Broglie - Nobel Lecture
Louis de Broglie - Nobel Lecture

Cooperative Spectrum Sensing with an Improved Energy
Cooperative Spectrum Sensing with an Improved Energy

Spin Qubits for Quantum Information Processing
Spin Qubits for Quantum Information Processing

... The two transition matrix elements are also identical with each other, W−→+ = W+→− = W , so that the population difference n is governed by d n = −2W n dt ...
7 Commutators, Measurement and The Uncertainty Principle
7 Commutators, Measurement and The Uncertainty Principle

example: on the Bloch sphere: this is a rotation around the equator
example: on the Bloch sphere: this is a rotation around the equator

... - qubits made from circuit elements ...
A Brief Review on Quantum Bit Commitment
A Brief Review on Quantum Bit Commitment

... a no-go theorem showing that unconditionally secure QBC is impossible unless relativistic effects are used. This impossibility comes from the fact that a cheating strategy using EPR pairs can always be implemented. Thus, different approaches have been presented in order to avoid the no-go theorem [1 ...
Wael`s quantum brain - Electrical & Computer Engineering
Wael`s quantum brain - Electrical & Computer Engineering

... You don't have to go back too far to find the origins of quantum computing. While computers have been around for the majority of the 20th century, quantum computing was first theorized just 20 years ago, by a physicist at the Argonne National Laboratory. Paul Benioff is credited with first applying ...
Simulation Study of Aspects of the Classical Hydrogen Atom
Simulation Study of Aspects of the Classical Hydrogen Atom

... Most physicist’s intuition of what should take place for atoms irradiated with electromagnetic radiation, undoubtedly lie with the early classic experiments of the photoelectric effect, where if the frequency of the radiation is below some threshold value, then no ionization takes places, regardless ...
Sufficient Conditions for Efficient Classical Simulation of Quantum
Sufficient Conditions for Efficient Classical Simulation of Quantum

The Mathematics of M
The Mathematics of M

The Quantum Hall Effect
The Quantum Hall Effect

... many-body systems. Indeed, ideas of topology and geometry will be a constant theme throughout these lectures. ...
Loop quantum gravity and Planck
Loop quantum gravity and Planck

Quantum effects in energy and charge transfer in an
Quantum effects in energy and charge transfer in an

... commutators of basic operators taken at the same moment of time. We note that at the initial moment of time the operator, ρμν (0) ≡ |μν|, is represented by the above-mentioned zero matrix with a single unit at the μ-ν intersection. The matrix elements of the electron operators in Eqs. (9) and (13) ...
Review of Atomic Structure
Review of Atomic Structure

... Sommerfeld succeeded partially in explaining the observed fine structure of spectral lines by introducing the following main modifications in Bohr’s theory: (i) Sommerfeld suggested that the path of an electron around the nucleus, in general, is an ellipse with the nucleus at one of the foci. The ci ...
Interaction-induced Lipkin-Meshkov-Glick model in a Bose
Interaction-induced Lipkin-Meshkov-Glick model in a Bose

Influence of Impurity Spin Dynamics on Quantum Transport in Epitaxial Graphene
Influence of Impurity Spin Dynamics on Quantum Transport in Epitaxial Graphene

... opposite to that observed for larger B∥. The measurement is performed on epitaxial graphene grown on silicon carbide (SiC/G), using curvature of the B⊥ MR peak to quantify the electron decoherence rate. Applying an in-plane magnetic field first broadens the MR peak slightly (enhances decoherence), b ...

Quantum electrodynamics



In particle physics, quantum electrodynamics (QED) is the relativistic quantum field theory of electrodynamics. In essence, it describes how light and matter interact and is the first theory where full agreement between quantum mechanics and special relativity is achieved. QED mathematically describes all phenomena involving electrically charged particles interacting by means of exchange of photons and represents the quantum counterpart of classical electromagnetism giving a complete account of matter and light interaction.In technical terms, QED can be described as a perturbation theory of the electromagnetic quantum vacuum. Richard Feynman called it ""the jewel of physics"" for its extremely accurate predictions of quantities like the anomalous magnetic moment of the electron and the Lamb shift of the energy levels of hydrogen.