Is Classical Statistical Mechanics Self-Consistent? (A paper in honor of C. F. von Weizsäcker, 1912–2007)
... The truth about this question was not revealed until 1993, when transcripts of secretly recorded conversations among ten top German physicists, including Heisenberg and Weizsäcker, detained at Farm Hall, near Cambridge in late 1945, were published. The Farm Hall Transcript revealed that Weizsäcker ...
... The truth about this question was not revealed until 1993, when transcripts of secretly recorded conversations among ten top German physicists, including Heisenberg and Weizsäcker, detained at Farm Hall, near Cambridge in late 1945, were published. The Farm Hall Transcript revealed that Weizsäcker ...
Measurement-based formulation of quantum heat engines and
... V or deterministic work extraction ...
... V or deterministic work extraction ...
Relativistic Quantum Mechanics
... producing the pair. Nuclei with very high atomic mass spontaneously “screen” themselves by polarising the vacuum via electron-positron production until the they lower their charge below a critical value Zc . This implies that objects with a charge greater than Zc are unobservable due to screening. ! ...
... producing the pair. Nuclei with very high atomic mass spontaneously “screen” themselves by polarising the vacuum via electron-positron production until the they lower their charge below a critical value Zc . This implies that objects with a charge greater than Zc are unobservable due to screening. ! ...
Linköping University Post Print Ion streaming instability in a quantum dusty magnetoplasma
... Recently, there has been a great deal of interest in investigating the linear and nonlinear properties of electrostatic1–5 and electromagnetic waves6–8 in dense quantum plasmas. The latter, which are ubiquitous in compact astrophysical bodies9 共e.g., the interiors of white dwarf stars, magnetars and ...
... Recently, there has been a great deal of interest in investigating the linear and nonlinear properties of electrostatic1–5 and electromagnetic waves6–8 in dense quantum plasmas. The latter, which are ubiquitous in compact astrophysical bodies9 共e.g., the interiors of white dwarf stars, magnetars and ...
the Bohr`s atom model - Latin-American Journal of Physics Education
... the atom, in the way that it is described in the most used text books [2, 3, 4, 5, 6, 7, 8], is an example of another untrue explanation. As it is well known Bohr postulated that the classical radiation theory does not hold for atomic systems. He overcomes the Rutherford’s model problem of an unstab ...
... the atom, in the way that it is described in the most used text books [2, 3, 4, 5, 6, 7, 8], is an example of another untrue explanation. As it is well known Bohr postulated that the classical radiation theory does not hold for atomic systems. He overcomes the Rutherford’s model problem of an unstab ...
field” going out of the box
... in Gauss’s law is EASY to do We need to choose a surface that has the same symmetry as the charge distribution Then the field will be either tangent to the surface or perpendicular to the surface => no angles to deal with in the dot product! ...
... in Gauss’s law is EASY to do We need to choose a surface that has the same symmetry as the charge distribution Then the field will be either tangent to the surface or perpendicular to the surface => no angles to deal with in the dot product! ...
- Philsci
... terms of successive instantaneous states, requires a choice of foliation consisting of spacelike hypersurfaces along which the successive states of the world are defined. Albert’s requirement (i) of separability is, therefore, too strong. An account of the world unfolding along some foliation may b ...
... terms of successive instantaneous states, requires a choice of foliation consisting of spacelike hypersurfaces along which the successive states of the world are defined. Albert’s requirement (i) of separability is, therefore, too strong. An account of the world unfolding along some foliation may b ...
Loop quantum gravity and Planck
... be Hermitian operators thereon, etc. This does not mean that one should use all that is already known about quantizing fields. Quite on the contrary, the tools needed to construct a background independent quantization (certainly not like the quantization we know), are rather new. Another important f ...
... be Hermitian operators thereon, etc. This does not mean that one should use all that is already known about quantizing fields. Quite on the contrary, the tools needed to construct a background independent quantization (certainly not like the quantization we know), are rather new. Another important f ...
Electron Configurations and Periodicity
... just: you don’t want to have two electrons in the same space at the same time. Again, that’s a very loose analogy, but that’s more or less what it’s saying physically: each electron must have its own set of quantum numbers that uniquely describes where it is. This allows us to understand the helium ...
... just: you don’t want to have two electrons in the same space at the same time. Again, that’s a very loose analogy, but that’s more or less what it’s saying physically: each electron must have its own set of quantum numbers that uniquely describes where it is. This allows us to understand the helium ...
Relativity and Quantum Field Theory
... operator appears that can be interpreted as acting on a state of the system and returning the total number of particles in that state. Condition (a) is supposed to encode the essential particle characteristic of localizability: For a system of particles distributed over various regions of space, an ...
... operator appears that can be interpreted as acting on a state of the system and returning the total number of particles in that state. Condition (a) is supposed to encode the essential particle characteristic of localizability: For a system of particles distributed over various regions of space, an ...
Chapter 1. Fundamental Theory
... Postulate III describes the basic principle of quantum measurement, which is the foundation of quantum interpretation. While the mathematical structure of quantum mechanics is extremely successful, its interpretation remains controversial. In this class we adopt the standard Copenhagen interpretatio ...
... Postulate III describes the basic principle of quantum measurement, which is the foundation of quantum interpretation. While the mathematical structure of quantum mechanics is extremely successful, its interpretation remains controversial. In this class we adopt the standard Copenhagen interpretatio ...