Theory of the muon g-2 [0.3cm] Why the 9th decimal
Theory of the muon g-2 [0.3cm] Why the 9th decimal

... New Physics than ae . Because of higher experimental precision for ae : “only” factor 19. Note: there are also non-decoupling contributions of heavy New Physics ! Another example: new light vector meson (“dark photon”) with MV ∼ (10 − 100) MeV. ae , aµ allow to exclude some models of New Physics or ...
The two-dimensional hydrogen atom revisited
The two-dimensional hydrogen atom revisited

... A semiconductor quantum well under illumination is a quasi-two-dimensional system, in which photoexcited electrons and holes are essentially confined to a plane. The mutual Coulomb interaction leads to electron–hole bound states known as excitons, which are extremely important for the optical proper ...
quantum aspects of photon propagation in transparent infinite
quantum aspects of photon propagation in transparent infinite

... more about the photon spin. There is a certain well-defined relationship betwen the dimensionality of the Hilbert space wave functions and spin. For photon, the respective dimensionality is 2 S  1 3, or, if we want to account for the parity conservation too, this number may be dubled 2(2 S  1) 6. ...
Wormholes and Entanglement
Wormholes and Entanglement

... state in the Hilbert space ( σ σ) ⊗ ( τ τ ), according to our definition of ‘complete entanglement’. However, thanks to the presence of the wormhole, ψL is not an arbitrary state of two particles: it is constrained to lie in the subspace ...
Time of Fight Detectors
Time of Fight Detectors

Particle Physics Notes
Particle Physics Notes

... If we set the strong force between two particles is 1, then: b) Electromagnetic force is 10-2, and restricted to electrically charged particles and holds atoms/molecules together. c) Weak force is 10-8 , exists in radioactive decay and nuclear fusion of subatomic particles. d) Gravitational force is ...
ELECTROGRAVITATION AS A UNIFIED FIELD
ELECTROGRAVITATION AS A UNIFIED FIELD

IOSR Journal of Applied Physics (IOSR-JAP)
IOSR Journal of Applied Physics (IOSR-JAP)

Quantum transport equations for Bose systems taking into account
Quantum transport equations for Bose systems taking into account

Quantum Mechanics II SS 2014
Quantum Mechanics II SS 2014

PPT
PPT

... particles – light quanta or photons - and waves comprehensible by interpreting the square of the optical wave amplitudes as probability density for the occurrence of photons. This concept could at once be carried over to the Y-function: | Y |2 ought to represent the probability density for electrons ...
Diffusion of transverse correlations and shear viscosity in heavy ion
Diffusion of transverse correlations and shear viscosity in heavy ion

Coulombic interactions in the fractional quantum Hall effect: from
Coulombic interactions in the fractional quantum Hall effect: from

Talk(3.1)
Talk(3.1)

Incomplete notes - UCI Physics and Astronomy
Incomplete notes - UCI Physics and Astronomy

Exotic Goldstone Particles: Pseudo-Goldstone Boson and Goldstone
Exotic Goldstone Particles: Pseudo-Goldstone Boson and Goldstone

Basic Electrostatics
Basic Electrostatics

... • The local density of the field lines is proportional to the strength of the electric field. • The electric field lines do not cross (otherwise the field would not be unique at that point). ...
Exact Conservation Laws of the Gradient Expanded Kadanoff–Baym
Exact Conservation Laws of the Gradient Expanded Kadanoff–Baym

Functional RG for few
Functional RG for few

On the mean-field limit of bosons Coulomb two
On the mean-field limit of bosons Coulomb two

Introduction to Supersymmetry
Introduction to Supersymmetry

1.2 Single Particle Kinematics
1.2 Single Particle Kinematics

... of the Third Law, namely that the action and reaction forces between two particles acts along the line of separation of the particles. If the force law is independent of velocity and rotationally and translationally symmetric, there is no other direction for it to point. For spinning particles and m ...
Landau Gauge Quark Propagator with External Magnetic Fields
Landau Gauge Quark Propagator with External Magnetic Fields

URL - StealthSkater
URL - StealthSkater

On Primitive Notions as Foundation of Physics
On Primitive Notions as Foundation of Physics

Propagator

In quantum mechanics and quantum field theory, the propagator gives the probability amplitude for a particle to travel from one place to another in a given time, or to travel with a certain energy and momentum. In Feynman diagrams, which calculate the rate of collisions in quantum field theory, virtual particles contribute their propagator to the rate of the scattering event described by the diagram. They also can be viewed as the inverse of the wave operator appropriate to the particle, and are therefore often called Green's functions.