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9781138306752

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Form factors are certain functions that characterise distribution and flow of matter inside extended objects and are very common in particle and hadron physics. The book by A. Khodjamirian provides a general review of this broad topic at the level accessible for graduate students. The standard course in the theory of strong interactions, Quantum Chromodynamics, should be a prerequisite. The book is addressed to students specialising in QCD phenomenology who want to familiarize themselves with the general concepts and learn how the calculations of hadron form factors are done in practice using several standard methods, without digging too much in the theory background. It will also be useful for experimenalists who are interested in an overall picture and want to understand where the theory predictions come from. The last three chapters contain a somewhat more advanced material as compared to the rest of the book. They will be very useful for practitioners as an introduction to the techniques of QCD sum rule calculations. Prof. Dr. Vladimir Braun, Universitat Regensburg

Form factors are certain functions that characterise distribution and flow of matter inside extended objects and are very common in particle and hadron physics. The book by A. Khodjamirian provides a general review of this broad topic at the level accessible for graduate students. The standard course in the theory of strong interactions, Quantum Chromodynamics, should be a prerequisite. The book is addressed to students specialising in QCD phenomenology who want to familiarize themselves with the general concepts and learn how the calculations of hadron form factors are done in practice using several standard methods, without digging too much in the theory background. It will also be useful for experimenalists who are interested in an overall picture and want to understand where the theory predictions come from. The last three chapters contain a somewhat more advanced material as compared to the rest of the book. They will be very useful for practitioners as an introduction to the techniques of QCD sum rule calculations. Prof. Dr. Vladimir Braun, Universitat Regensburg

Form factors are certain functions that characterise distribution and flow of matter inside extended objects and are very common in particle and hadron physics. The book by A. Khodjamirian provides a general review of this broad topic at the level accessible for graduate students. The standard course in the theory of strong interactions, Quantum Chromodynamics, should be a prerequisite. The book is addressed to students specialising in QCD phenomenology who want to familiarize themselves with the general concepts and learn how the calculations of hadron form factors are done in practice using several standard methods, without digging too much in the theory background. It will also be useful for experimenalists who are interested in an overall picture and want to understand where the theory predictions come from. The last three chapters contain a somewhat more advanced material as compared to the rest of the book. They will be very useful for practitioners as an introduction to the techniques of QCD sum rule calculations. Prof. Dr. Vladimir Braun, Universitat Regensburg The reader interested in the hadronic phenomenology based on Quantum Chromodynamics (QCD) will find only a few books on the market, if at all. Alexander Khodjamirian's book Hadron Form Factors: From Basic Phenomenology to QCD Sum Rules solves just that problem with regards to a particular aspect of phenomenology, namely the hadronic form factors. Alexander Khodjamirian covers this topic in a very consistent manner, from the beginning to the end. The book starts from a brief introduction which explains how form factors had appeared in atomic physics and then extends this notion to the hadronic form factors as they are known today, after 50 years of development of QCD. More exactly (and to avoid confusion), Alexander Khodjamirian focuses on analytic QCD, the area of his expertise. Chapter 1 presents a concise review of QCD, and introduces relevant notation and techniques. It also describes main phenomenological facts about relevant parameters and hadronic form factors {\em per se}. In Chapter 2 a long journey in the analytic QCD-based theory begins. As a remarkable feature of this book I should mention that the reader will find here a large number of various form factor problems - basically, all those playing a crucial role in understanding the hadronic phenomenology. It also explains {\em en route} the sum rule method, starting from the SVZ sum rules, through generalizations, to the light-cone sum rules most relevant in the form factor analyses. The book is pedagogically written, and I should add, quite masterfully. It will provide a great service to graduate students and young researchers in this area. Mikhail Shifman, University of Minnesota Form factors are certain functions that characterise distribution and flow of matter inside extended objects and are very common in particle and hadron physics. The book by A. Khodjamirian provides a general review of this broad topic at the level accessible for graduate students. The standard course in the theory of strong interactions, Quantum Chromodynamics, should be a prerequisite. The book is addressed to students specialising in QCD phenomenology who want to familiarize themselves with the general concepts and learn how the calculations of hadron form factors are done in practice using several standard methods, without digging too much in the theory background. It will also be useful for experimenalists who are interested in an overall picture and want to understand where the theory predictions come from. The last three chapters contain a somewhat more advanced material as compared to the rest of the book. They will be very useful for practitioners as an introduction to the techniques of QCD sum rule calculations. Prof. Dr. Vladimir Braun, Universitat Regensburg The reader interested in the hadronic phenomenology based on Quantum Chromodynamics (QCD) will find only a few books on the market, if at all. Alexander Khodjamirian's book Hadron Form Factors: From Basic Phenomenology to QCD Sum Rules solves just that problem with regards to a particular aspect of phenomenology, namely the hadronic form factors. Alexander Khodjamirian covers this topic in a very consistent manner, from the beginning to the end. The book starts from a brief introduction which explains how form factors had appeared in atomic physics and then extends this notion to the hadronic form factors as they are known today, after 50 years of development of QCD. More exactly (and to avoid confusion), Alexander Khodjamirian focuses on analytic QCD, the area of his expertise. Chapter 1 presents a concise review of QCD, and introduces relevant notation and techniques. It also describes main phenomenological facts about relevant parameters and hadronic form factors {\em per se}. In Chapter 2 a long journey in the analytic QCD-based theory begins. As a remarkable feature of this book I should mention that the reader will find here a large number of various form factor problems - basically, all those playing a crucial role in understanding the hadronic phenomenology. It also explains {\em en route} the sum rule method, starting from the SVZ sum rules, through generalizations, to the light-cone sum rules most relevant in the form factor analyses. The book is pedagogically written, and I should add, quite masterfully. It will provide a great service to graduate students and young researchers in this area. Mikhail Shifman, University of Minnesota

Author Information

Alexander Khodjamirian is a professor at the Department of Physics, University of Siegen, Germany. Dr. Khodjamirian received his PhD degree in theoretical physics from the Yerevan Physics Institute in 1980, where he later worked as a staff member in the Theory Division. In 1992 he moved to Germany, first as a Humboldt Fellow at Ludwig-Maximilian University in Munich, then as a research associate and visitor at various universities and research centers in Germany and Europe (LMU in Munich, University of Würzburg, NBI in Copenhagen, CERN, University of Lund, University of Karlsruhe). From 2004 he worked as a senior staff scientist, before becoming a professor at the University of Siegen in 2009. Prof. Dr. Khodjamirian is a foreign member of the Armenian National Academy of Sciences. He is highly respected in his field of scientific research, which is theoretical particle physics, quantum chromodynamics and the phenomenology of hadrons.

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