释义 |
Definition of quantum electrodynamics in English: quantum electrodynamicsplural noun treated as singular A quantum field theory that deals with the electromagnetic field and its interaction with electrically charged particles. Example sentencesExamples - But this reconciliation has been carried out successfully, in the theory of quantum electrodynamics, which glories in the auspicious acronym of QED.
- Paul Dirac famously remarked that with the advent of quantum electrodynamics we had in our hands a theory that covered ‘all of chemistry, and most of physics‘.
- Usually, though, the credit for inspiring nanotechnology goes to a lecture by Richard Phillips Feynman, a brilliant Caltech physicist who later won a Nobel Prize for ‘fundamental work in quantum electrodynamics.’
- Here is the great American physicist Richard Feynman describing the success of quantum electrodynamics.
- Further understanding led to the development of relativistic quantum field theory, beginning with quantum electrodynamics, or QED for short, pioneered by Feynman, Schwinger and Tomonaga in the 1940s.
- Freeman Dyson, a cofounder of quantum electrodynamics, explains what the theorem proves, namely that, ‘no finite set of axioms and rules of inference can ever encompass the whole of mathematics.
- The electromagnetic interaction is described by the theory of quantum electrodynamics, one of the most successful theories of physics.
- The marvelous theory of electrons and their interactions with light is called quantum electrodynamics, or QED.
- Methods for accurately calculating g were devised in the 1940s as part of a thorough overhaul of the theory of electrons - a theory called quantum electrodynamics, or QED.
- At the heart of these experiments is the Casimir effect, a phenomenon from quantum electrodynamics.
- Experiments on the hyperfine structure of hydrogen-like ions of heavy elements also require knowing the Bohr-Weisskopf effect in order to extract the influence of quantum electrodynamics.
- In his 1970 classic work The Feynman Lectures on Physics, Feynman covered all of physics - from celestial mechanics to quantum electrodynamics - with only two levels of hierarchy.
- For this reason physicists sought the quantum theory of electromagnetism or quantum electrodynamics.
- In 1951 he proposed, what is today called the Schwinger effect in quantum electrodynamics, where electron-positron pairs are sucked out of a vacuum by an electric field.
- There are the laws of quantum electrodynamics, which control the basic atomic and subatomic structure of all the components of my personal computer's electronics.
- This is nowhere more obvious than in quantum electrodynamics which is the most accurate theory in the history of science so far.
- Because of its similarity to quantum electrodynamics, and the theory of the nuclear weak force, QCD hinted that there might be a common explanation underlying all three forces.
- There was only one talk about physics itself, a brief tutorial on quantum electrodynamics by Joe Polchinski.
- How well verified is the theory of quantum electrodynamics?
- Dick said that this was the only piece of research on quantum electrodynamics that came as a surprise to him.
Definition of quantum electrodynamics in US English: quantum electrodynamicsplural noun treated as singular A quantum field theory that deals with the electromagnetic field and its interaction with electrically charged particles. Example sentencesExamples - But this reconciliation has been carried out successfully, in the theory of quantum electrodynamics, which glories in the auspicious acronym of QED.
- Usually, though, the credit for inspiring nanotechnology goes to a lecture by Richard Phillips Feynman, a brilliant Caltech physicist who later won a Nobel Prize for ‘fundamental work in quantum electrodynamics.’
- There are the laws of quantum electrodynamics, which control the basic atomic and subatomic structure of all the components of my personal computer's electronics.
- At the heart of these experiments is the Casimir effect, a phenomenon from quantum electrodynamics.
- Paul Dirac famously remarked that with the advent of quantum electrodynamics we had in our hands a theory that covered ‘all of chemistry, and most of physics‘.
- How well verified is the theory of quantum electrodynamics?
- The electromagnetic interaction is described by the theory of quantum electrodynamics, one of the most successful theories of physics.
- Freeman Dyson, a cofounder of quantum electrodynamics, explains what the theorem proves, namely that, ‘no finite set of axioms and rules of inference can ever encompass the whole of mathematics.
- In his 1970 classic work The Feynman Lectures on Physics, Feynman covered all of physics - from celestial mechanics to quantum electrodynamics - with only two levels of hierarchy.
- The marvelous theory of electrons and their interactions with light is called quantum electrodynamics, or QED.
- There was only one talk about physics itself, a brief tutorial on quantum electrodynamics by Joe Polchinski.
- Here is the great American physicist Richard Feynman describing the success of quantum electrodynamics.
- In 1951 he proposed, what is today called the Schwinger effect in quantum electrodynamics, where electron-positron pairs are sucked out of a vacuum by an electric field.
- Because of its similarity to quantum electrodynamics, and the theory of the nuclear weak force, QCD hinted that there might be a common explanation underlying all three forces.
- Methods for accurately calculating g were devised in the 1940s as part of a thorough overhaul of the theory of electrons - a theory called quantum electrodynamics, or QED.
- Dick said that this was the only piece of research on quantum electrodynamics that came as a surprise to him.
- Experiments on the hyperfine structure of hydrogen-like ions of heavy elements also require knowing the Bohr-Weisskopf effect in order to extract the influence of quantum electrodynamics.
- Further understanding led to the development of relativistic quantum field theory, beginning with quantum electrodynamics, or QED for short, pioneered by Feynman, Schwinger and Tomonaga in the 1940s.
- For this reason physicists sought the quantum theory of electromagnetism or quantum electrodynamics.
- This is nowhere more obvious than in quantum electrodynamics which is the most accurate theory in the history of science so far.
|