scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Stress Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stress-energy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r-4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Stress Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stress-energy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r-4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Stress Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stress-energy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r-4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Distortion Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stressenergy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r -4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Distortion Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stressenergy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r -4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Distortion Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stressenergy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r -4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures, Transition Dynamics and Force Constants

2021 ◽  
Author(s):  
Dale. R. Koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Force Constants ◽  
Geometric Distortion ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Distortion Energy ◽  
Present Context

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. We use the verbiage “distorted” to communicate the concept of “energetic warping” to distinguish “spatial warping” from “classical matter warping”, although the concept of “matter” is in fact, in the present context, the “geometric distortion energy” of the spatial manifold itself without a classical “matter stressenergy source”. The “distorted-geometry” structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r -4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling lead to a description of transition dynamics and photonic entities.

scholarly journals Geometric Mediator Structures and Force Constants

2021 ◽  
Author(s):  
dale koehler
Keyword(s):  
Black Body ◽  
Black Body Radiation ◽  
Core Region ◽  
Force Constants ◽  
Classical Particle ◽  
Particle Structure ◽  
Radiation Emission ◽  
Transition Dynamics ◽  
Space Model ◽  
The Core

Abstract It is shown in the present work that the distorted-space model of matter can describe conventional force-constants and transition-mediator structures. The distorted-geometry structures exhibit non-Newtonian features wherein the hole or core-region fields of the structures are energetically-repulsive (negative pressure), do not behave functionally in an r-4 manner and terminate at zero at the radial origin (no singularity). Near the core of the distortion the magnetic fields dominate the energy-densities of the structures thereby departing from classical particle-structure descriptions. Black-body radiation-emission and structural modeling leads to a description of transition dynamics and photonic entities.

Fermion fields in accelerated states

1978 ◽  
Vol 362 (1709) ◽  
pp. 251-262 ◽  
Keyword(s):  
Vacuum Expectation ◽  
Vacuum Expectation Value ◽  
Black Body ◽  
Black Body Radiation ◽  
Energy Tensor ◽  
Stress Energy Tensor ◽  
Expectation Value ◽  
Fermion Fields ◽  
Massless Spin ◽  
Stress Energy

The massless spin-½ and spin-3/2 fields are quantized in the ‘Rindler wedge.’ The vacuum expectation value of the stress-energy tensor is calculated for the spin-½ field and is found to correspond to the absence from the vacuum of black body radiation. Though thermal, the spectrum of the stress tensor has a non-Planckian form.

scholarly journals Pre-service Physics Teachers’ Opinions about the Difficulties in Understanding Introductory Quantum Physics Topics

2016 ◽  
Vol 5 (1) ◽  
pp. 101
Author(s):  
Hasan Şahin Kızılcık ◽  
Pervin Ünlü Yavaş
Keyword(s):  
Content Analysis ◽  
Quantum Physics ◽  
Black Body ◽  
Black Body Radiation ◽  
Case Study Method ◽  
Particle Structure ◽  
Physics Teachers ◽  
Classical Physics ◽  
Radiation Wave

The aim of this study is to identify the opinions of pre-service physics teachers about the difficulties in introductory quantum physics topics. In this study conducted with twenty-five pre-service physics teachers, the case study method was used. The participants were interviewed about introductory quantum physics topics. The interviews were coded using content analysis and were divided into different categories. In this way, we tried to reveal the opinions of pre-service physics teachers about the difficulties of these topics. In conclusion, it can be said that the participants had the most difficulty in transition from classical physics to quantum physics. This is especially evident in quantum physics topics that require a different understanding such as black body radiation, wave-particle structure of light and the uncertainty principle. It was also found that the participants had no difficulties in terms of mathematical calculations, and that approaches based on visualizing the topic were received positively.

scholarly journals Layers for ion beam energy conversion into black body radiation

1985 ◽  
Vol 3 (3) ◽  
pp. 283-311 ◽  
Author(s):  
J. Meyer-Ter-Vehn ◽  
K. Unterseer
Keyword(s):  
Energy Conversion ◽  
Essential Feature ◽  
Ion Beam ◽  
Black Body ◽  
Black Body Radiation ◽  
Beam Power ◽  
Slab Geometry ◽  
Radiation Emission ◽  
Conversion Efficiencies ◽  
Radiative Regime

The radiation hydrodynamics of material layers for energy conversion of intense ion beams into black body radiation is investigated, both analytically and numerically. Conversion efficiency and hydrodynamic losses are the main topics. The basic scaling relations are derived and compared with computer simulations. Although the analysis is done for slab geometry, a generalization to converters of arbitrary shape and deposition geometry is outlined. The code MINIRA is briefly described. The influence of varying layer density, optical thickness and beam power on radiation emission as well as the effect of Bragg peak deposition are discussed in detail. High conversion efficiencies of more than 50% can be obtained provided that the converter is operated in the radiative regime. For typical beam intensities, this requires low-density layers. Another essential feature is supersonic heat transport which occurs in the radiative regime.

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