Ebook: On Gauge Fixing Aspects of the Infrared Behavior of Yang-Mills Green Functions
Author: Markus Q. Huber (auth.)
- Tags: Elementary Particles Quantum Field Theory, Theoretical Mathematical and Computational Physics, Mathematical Physics, Mathematical Applications in the Physical Sciences
- Series: Springer Theses
- Year: 2012
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
Quarks are the main constituents of protons and neutrons and hence are important building blocks of all the matter that surrounds us. However, quarks have the intriguing property that they never appear as isolated single particles but only in bound states. This phenomenon is called confinement and has been a central research topic of elementary particle physics for the last few decades. In order to find the mechanism that forbids the existence of free quarks many approaches and ideas are being followed, but by now it has become clear that they are not mutually exclusive but illuminate the problem from different perspectives.
Two such confinement scenarios are investigated in this thesis: Firstly, the importance of Abelian field components for the low-energy regime is corroborated, thus supporting the dual superconductor picture of confinement and secondly, the influence of the Gribov horizon on non-perturbative solutions is studied.
Quarks are the main constituents of protons and neutrons and hence are important building blocks of all the matter that surrounds us. However, quarks have the intriguing property that they never appear as isolated single particles but only in bound states. This phenomenon is called confinement and has been a central research topic of elementary particle physics for the last few decades. In order to find the mechanism that forbids the existence of free quarks many approaches and ideas are being followed, but by now it has become clear that they are not mutually exclusive but illuminate the problem from different perspectives.
Two such confinement scenarios are investigated in this thesis: Firstly, the importance of Abelian field components for the low-energy regime is corroborated, thus supporting the dual superconductor picture of confinement and secondly, the influence of the Gribov horizon on non-perturbative solutions is studied.
Quarks are the main constituents of protons and neutrons and hence are important building blocks of all the matter that surrounds us. However, quarks have the intriguing property that they never appear as isolated single particles but only in bound states. This phenomenon is called confinement and has been a central research topic of elementary particle physics for the last few decades. In order to find the mechanism that forbids the existence of free quarks many approaches and ideas are being followed, but by now it has become clear that they are not mutually exclusive but illuminate the problem from different perspectives.
Two such confinement scenarios are investigated in this thesis: Firstly, the importance of Abelian field components for the low-energy regime is corroborated, thus supporting the dual superconductor picture of confinement and secondly, the influence of the Gribov horizon on non-perturbative solutions is studied.
Content:
Front Matter....Pages i-xi
Introduction....Pages 1-6
Yang-Mills Theory and its Infrared Behavior....Pages 7-24
Functional Equations....Pages 25-35
Scaling Solutions....Pages 37-58
The Infrared Regime of the Maximally Abelian Gauge....Pages 59-79
Dyson-Schwinger Equations in the Gribov Region....Pages 81-106
Conclusions....Pages 107-108
Back Matter....Pages 109-137
Quarks are the main constituents of protons and neutrons and hence are important building blocks of all the matter that surrounds us. However, quarks have the intriguing property that they never appear as isolated single particles but only in bound states. This phenomenon is called confinement and has been a central research topic of elementary particle physics for the last few decades. In order to find the mechanism that forbids the existence of free quarks many approaches and ideas are being followed, but by now it has become clear that they are not mutually exclusive but illuminate the problem from different perspectives.
Two such confinement scenarios are investigated in this thesis: Firstly, the importance of Abelian field components for the low-energy regime is corroborated, thus supporting the dual superconductor picture of confinement and secondly, the influence of the Gribov horizon on non-perturbative solutions is studied.
Content:
Front Matter....Pages i-xi
Introduction....Pages 1-6
Yang-Mills Theory and its Infrared Behavior....Pages 7-24
Functional Equations....Pages 25-35
Scaling Solutions....Pages 37-58
The Infrared Regime of the Maximally Abelian Gauge....Pages 59-79
Dyson-Schwinger Equations in the Gribov Region....Pages 81-106
Conclusions....Pages 107-108
Back Matter....Pages 109-137
....