STANDARD MODEL IN MAKING ISMP 104 C
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The aim of this book is to give a comprehensive exposition of the foundations of the Standard Model and to outline their applicability to high energy phenomena. It provides an easily accessible introduction to all aspects of renormalization, the mathematical tool that has paved the way for a calculable theory of the fundamental interactions. The theory is clearly developed from the renormalizability of the Standard Model and guidance is given as to its applications to high energy phenomena. The book includes all the details needed to derive the results and collects in one place all relevant fo...
The aim of this book is to give a comprehensive exposition of the foundations of the Standard Model and to outline their applicability to high energy phenomena. It provides an easily accessible introduction to all aspects of renormalization, the mathematical tool that has paved the way for a calculable theory of the fundamental interactions. The theory is clearly developed from the renormalizability of the Standard Model and guidance is given as to its applications to high energy phenomena. The book includes all the details needed to derive the results and collects in one place all relevant formulae, recipes and prescriptions which are needed to construct the theoretical predictions and compare them with the experimental results. This makes the book unique in its field.
The Standard Model is an important theory in particle physics, which unifies the theories of electromagnetic and weak interactions in atomic particles. Much work has been done over the past decade on testing the truth of this theory, and one important testing ground is the e+e- collision experiment. In this book the authors describe the predictions of the Standard Model relating to these experiments, summarizing the important developments so far and paving the way for experiments at higher energies.
The Standard Model is an important theory in particle physics, which unifies the theories of electromagnetic and weak interactions in atomic particles. Much work has been done over the past decade on testing the truth of this theory, and one important testing ground is the e+e- collision experiment. In this book the authors describe the predictions of the Standard Model relating to these experiments, summarizing the important developments so far and paving the way for experiments at higher energies.
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