@article {637682,
title = {QED -Quantum electrodynamics},
journal = {DRAFT COPY subsequently published in Science and Its Times: Understanding the Social Significance of Scientific Discovery. Thomson Gale,},
year = {2001},
abstract = {Quantum electrodynamics (QED), is a scientific theory that is also known as the quantum theory of light. QED describes the quantum properties (properties that are conserved and that occur in discrete amounts called quanta) and mechanics associated with the interaction of light (i.e., electromagnetic radiation) with matter. The practical value of QED rests upon its ability, as set of equations, to allow calculations related to the absorption and emission of light by atoms and to allow scientists to make very accurate predictions regarding the result of the interactions between photons and charged atomic particles such as electrons. QED is a fundamentally important scientific theory because it accounts for all observed physical phenomena except those associated with aspects of relativity theory and radioactive decay. (more)},
author = {Lerner K. Lee}
}