The Logic of Nature, Complexity and New Physics: From Quark-Gluon Plasma to Superstrings, Quantum Gravity and Beyond - Proceedings of the International School of Subnuclear PhysicsWorld Scientific, 2008 - 688 páginas From August 29 to September 7, 2006, a large group of distinguished lecturers and young physicists coming from various countries around the world met in Erice, Italy, at the Ettore Majorana Foundation and Centre for Scientific Culture (EMFCSC) for the 44th course of the International School of Subnuclear Physics: OC The Logic of Nature, Complexity and New Physics: From Quark-Gluon Plasma to Superstrings, Quantum Gravity and BeyondOCO.This book is a collection of lectures given during the course, covering the most recent advances in theoretical physics and the latest results from current experimental facilities. Following one of the aims of the School, which is to encourage and promote young physicists to achieve recognition at an international level, the students who have distinguished themselves for their excellence in research have been given the opportunity to publish their presentations in this volume. |
Índice
MiniCourses on Basics | 1 |
QCD at Low Energy The Simplicity of Complex | 39 |
Complexity and Landscape in String Theory | 81 |
Black Holes Qubits and the Fano Plane | 101 |
The Status of Lattice QCD | 137 |
The Landscape and its Physics Foundations How String Theory | 161 |
Complexity and Nonextensive Statistical Mechanics Theory | 253 |
Consequences for LHC | 269 |
Highlights from Laboratories | 325 |
Términos y frases comunes
action allows background beam black hole calculations called central charge collisions Complexity consider constant contribution correct correlation corresponding coupling decay defined depends described detector determined diagrams dimensions discussed distribution dynamics effective energy equations example existence expected experiment experimental fact factor field Figure final fluctuations function fundamental gauge give given going hadronic higher integral interaction interesting invariant Italy lattice leading length Lett limit look machine mass matter means measured mesons method momentum nature observed obtained operator parameters particles phase Phys physics possible precision prediction present problem production properties quantum quantum mechanics quark question reference region relation scalar scale scattering shown simulations space Standard Model string structure symmetry theoretical theory things universe vacuum zero