Quantum Reality
... If one boson is in a particular quantum state, all other bosons are "invited in" to share the same state. The more bosons that pile into the state, the stronger becomes the tendency for others to join them. In such a state, a very large number of particle will have a single quantum wave function. Th ...
... If one boson is in a particular quantum state, all other bosons are "invited in" to share the same state. The more bosons that pile into the state, the stronger becomes the tendency for others to join them. In such a state, a very large number of particle will have a single quantum wave function. Th ...
Bethe-Salpeter Equation with Spin
... introduced. That is, bound states in which one of the constituents is a spin-1 particle. Thus, the formalism supports consideration of a bound state of two spin-1 particles; a bound state of spin-1 particle and a boson as well as the case, where one particle is of spin-1 and the other, spin-1/2. ...
... introduced. That is, bound states in which one of the constituents is a spin-1 particle. Thus, the formalism supports consideration of a bound state of two spin-1 particles; a bound state of spin-1 particle and a boson as well as the case, where one particle is of spin-1 and the other, spin-1/2. ...
THE ATOM
... 2. Helium-neon lasers use an electric discharge to bring the atoms of the gas mixture to metastable levels. D. The metastable atoms, as they return to their ground states, create photons all of the same frequency and all of whose waves are coherent or exactly in step. 8-12. Quantum Mechanics A. The ...
... 2. Helium-neon lasers use an electric discharge to bring the atoms of the gas mixture to metastable levels. D. The metastable atoms, as they return to their ground states, create photons all of the same frequency and all of whose waves are coherent or exactly in step. 8-12. Quantum Mechanics A. The ...
Lecture 1
... Bothe and Geiger demonstrate that energy and mass are conserved in atomic processes. 1926 Schroedinger develops wave mechanics, which describes the behavior of quantum systems for bosons. Born gives a probability interpretation of quantum mechanics. G.N. Lewis proposes the name "photon" for a light ...
... Bothe and Geiger demonstrate that energy and mass are conserved in atomic processes. 1926 Schroedinger develops wave mechanics, which describes the behavior of quantum systems for bosons. Born gives a probability interpretation of quantum mechanics. G.N. Lewis proposes the name "photon" for a light ...
quarks
... 1970 Glashow, Iliopoulos, and Maiani recognize the critical importance of a fourth type of quark in the context of the Standard Model. 1973 First indications of weak interactions with no charge exchange (due to Z0 exchange.) 1973 A quantum field theory of strong interaction is formulated (QCD) 1973 ...
... 1970 Glashow, Iliopoulos, and Maiani recognize the critical importance of a fourth type of quark in the context of the Standard Model. 1973 First indications of weak interactions with no charge exchange (due to Z0 exchange.) 1973 A quantum field theory of strong interaction is formulated (QCD) 1973 ...
From electrons to quarks – the development of Particle Physics
... negative electrons in orbit around nucleus at distance 10-10 m; electrons bound to nucleus by electromagnetic force. has problem with electrons wanting to decaying into nucleus this problem was solved by Quantum Mechanics! ...
... negative electrons in orbit around nucleus at distance 10-10 m; electrons bound to nucleus by electromagnetic force. has problem with electrons wanting to decaying into nucleus this problem was solved by Quantum Mechanics! ...
Second quantization and tight binding models
... It is just one step away from quantum field theory. (will be discussed later) In both high energy and condensed matter physics, quantum field theory utilize the “Second Quantization”construction. The reason is because quantum field theory deals with more than one indistinguishable palaces, and t ...
... It is just one step away from quantum field theory. (will be discussed later) In both high energy and condensed matter physics, quantum field theory utilize the “Second Quantization”construction. The reason is because quantum field theory deals with more than one indistinguishable palaces, and t ...
de broglie waves - Project PHYSNET
... but that these two were incompatible concepts. For example, a particle is at a definite point in space following a well-defined trajectory, while a wave spreads out with time and even bends around corners. The overlapping of two coherent waves produces interference effects, and that is totally alien ...
... but that these two were incompatible concepts. For example, a particle is at a definite point in space following a well-defined trajectory, while a wave spreads out with time and even bends around corners. The overlapping of two coherent waves produces interference effects, and that is totally alien ...
The Origin of Inertia
... interpretation of mass-energy. However one has to be careful to maintain self-consistency when comparing theoretical models. The quantum vacuum-inertia concept implies -- via the principle of equivalence -- that gravitation must also have a connection to the ZPF (along lines conjectured by Sakharov ...
... interpretation of mass-energy. However one has to be careful to maintain self-consistency when comparing theoretical models. The quantum vacuum-inertia concept implies -- via the principle of equivalence -- that gravitation must also have a connection to the ZPF (along lines conjectured by Sakharov ...
PH302 Introduction to Statistical Mechanics
... Statistical mechanics is branch of physics that deals with understand collective response from the single particle behavior. This course explains how the statistical approach is effective in predicting the thermodynamics of system from the constituent particles. Methods of statistical mechanics are ...
... Statistical mechanics is branch of physics that deals with understand collective response from the single particle behavior. This course explains how the statistical approach is effective in predicting the thermodynamics of system from the constituent particles. Methods of statistical mechanics are ...
dark energy stars - at www.arxiv.org.
... velocity of sound vanishes in our superfluid column ic completely analogous to the event horizon of a classical black hole. However, in contrast with the behavior of waves or particles as they cross the event horizon of a classical black hole, the sound waves in our thought experiment would not pass ...
... velocity of sound vanishes in our superfluid column ic completely analogous to the event horizon of a classical black hole. However, in contrast with the behavior of waves or particles as they cross the event horizon of a classical black hole, the sound waves in our thought experiment would not pass ...
