Quantum Reflection at Strong Magnetic Fields
... incoming probe photons to be partially reflected from the region of the inhomogeneity. In our analogy the probe photons play the role of the atoms, while the magnetized quantum vacuum plays the role of the attractive potential created by the condensed matter surface. However, probe photons unaffecte ...
... incoming probe photons to be partially reflected from the region of the inhomogeneity. In our analogy the probe photons play the role of the atoms, while the magnetized quantum vacuum plays the role of the attractive potential created by the condensed matter surface. However, probe photons unaffecte ...
Geometrical Aspects of Conformal Quantum Field Theory
... the special role of the energy–momentum tensor as generator of conformal symmetry. This is reflected in the conformal Ward identity. From our analysis we deduce how conformal invariance fixes the one–, two– and three–point functions of arbitrary primary fields. The system of a free, massless scalar ...
... the special role of the energy–momentum tensor as generator of conformal symmetry. This is reflected in the conformal Ward identity. From our analysis we deduce how conformal invariance fixes the one–, two– and three–point functions of arbitrary primary fields. The system of a free, massless scalar ...
Geometric phases in quantum systems of pure and mixed state
... state. This work is divided into 5 parts. A preliminary section is intended to prepare the reader for the mathematical concepts and reasoning implemented in the upcoming sections, a theoretical section which introduces the concept of geometric phase, a section discussing experiments in which the geo ...
... state. This work is divided into 5 parts. A preliminary section is intended to prepare the reader for the mathematical concepts and reasoning implemented in the upcoming sections, a theoretical section which introduces the concept of geometric phase, a section discussing experiments in which the geo ...
A tutorial on particle filters for online nonlinear/non-gaussian
... to the state vector. The measurement vector is generally (but not necessarily) of lower dimension than the state vector. The statespace approach is convenient for handling multivariate data and nonlinear/non-Gaussian processes, and it provides a significant advantage over traditional time-series tec ...
... to the state vector. The measurement vector is generally (but not necessarily) of lower dimension than the state vector. The statespace approach is convenient for handling multivariate data and nonlinear/non-Gaussian processes, and it provides a significant advantage over traditional time-series tec ...
Holism and Structuralism in U(1) Gauge Theory - Philsci
... F → π −1 (Ui ) within some open set Ui ⊂ M. In order to obtain the global bundle structure the local charts φi must be glued together with transition functions tij (p) = (φ−1 ◦ φj ) (p). If all transition functions can be taken to be the identity the bundle is called trivial. In this case not only i ...
... F → π −1 (Ui ) within some open set Ui ⊂ M. In order to obtain the global bundle structure the local charts φi must be glued together with transition functions tij (p) = (φ−1 ◦ φj ) (p). If all transition functions can be taken to be the identity the bundle is called trivial. In this case not only i ...
Quantum correlations
... von Neumann entropy S(̺) = Tr̺ log ̺: measures how broadly ̺ is spread over the Hilbert space For correlated states I > 0: the global state is known with more accuracy than ose of the single parts ...
... von Neumann entropy S(̺) = Tr̺ log ̺: measures how broadly ̺ is spread over the Hilbert space For correlated states I > 0: the global state is known with more accuracy than ose of the single parts ...
Bessel Functions and Their Applications: Solution to Schrödinger
... moving along the x-axis. At any position (x) and momentum (p) in time (t), the behavior and motion of the particle is given by the wave function ( ). ...
... moving along the x-axis. At any position (x) and momentum (p) in time (t), the behavior and motion of the particle is given by the wave function ( ). ...
Quantum Mechanics
... theories of mechanics and electromagnetism to provide a satisfactory explanation of some of the properties of electromagnetic radiation and of atomic structure. As a result, a theory has emerged whose basic principles can be used to explain not only the structure and properties of atoms, molecules a ...
... theories of mechanics and electromagnetism to provide a satisfactory explanation of some of the properties of electromagnetic radiation and of atomic structure. As a result, a theory has emerged whose basic principles can be used to explain not only the structure and properties of atoms, molecules a ...
WEAK COUPLING LIMIT OF THE iV
... The potential V is assumed to be real-valued and bounded from below, but no assumption is made as to its sign. In other words, attractive as well as repulsive interactions are amenable to the methods presented in this paper. The following notations will be used constantly in the sequel XN := (X1,X2, ...
... The potential V is assumed to be real-valued and bounded from below, but no assumption is made as to its sign. In other words, attractive as well as repulsive interactions are amenable to the methods presented in this paper. The following notations will be used constantly in the sequel XN := (X1,X2, ...
Ramsey Interference in One-Dimensional Systems: The Full
... new theoretical challenges by studying far-fromequilbrium dynamics of such systems. Recent experiments addressed such questions as thermalization and integrability [3], decoherence after the splitting of two condensates [4] and spin dynamics of two-component Bose mixtures [5]. Motivation for such ex ...
... new theoretical challenges by studying far-fromequilbrium dynamics of such systems. Recent experiments addressed such questions as thermalization and integrability [3], decoherence after the splitting of two condensates [4] and spin dynamics of two-component Bose mixtures [5]. Motivation for such ex ...
