The majority of the "memorable" results of relativistic quantum theory were obtained within the framework of the local quantum field approach. The explanation of the basic principles of the local theory and its mathematical structure has left its mark on all modern activity in this area. Originally, the axiomatic approach arose from attempts to give a mathematical meaning to the quantum field theory of strong interactions (of Yukawa type). The fields in such a theory are realized by operators in Hilbert space with a positive Poincare-invariant scalar product. This "classical" part of the axiomatic approach attained its modern form as far back as the sixties. * It has retained its importance even to this day, in spite of the fact that nowadays the main prospects for the description of the electro-weak and strong interactions are in connection with the theory of gauge fields. In fact, from the point of view of the quark model, the theory of strong interactions of Wightman type was obtained by restricting attention to just the "physical" local operators (such as hadronic fields consisting of ''fundamental'' quark fields) acting in a Hilbert space of physical states. In principle, there are enough such "physical" fields for a description of hadronic physics, although this means that one must reject the traditional local Lagrangian formalism. (The connection is restored in the approximation of low-energy "phe nomenological" Lagrangians.
This book begins with the past and present of the subversive technology of artificial intelligence, clearly analyzes the overall picture, latest developments and development trends of the artificial intelligence industry, and conducts in-depth research on the competitive situation of various countries. The book also provides an in-depth analysis of the opportunities and challenges that artificial intelligence brings to individuals, businesses, and society. For readers who want to fully understand artificial intelligence, this book provides an important reference and is a must-read.
“Google’s engineer who worked on AI recently resigned, Elon Musk is showing concern, the fear is AI might destroy the world if we do not regulate this development .” —PRINCEWILL ODIDI Jefftech Solutions USA, Author of the Bestseller book, Publisher and a Business development Consultant “I n the depths of the digital world, lies a secret that’s yet to be unfurled, a dark and dangerous truth concealed, that may leave you trembling for in the heart of artificial intelligence, lies a power that’s beyond our comprehension, a force that’s both malevolent and divine.” — Ask AI “The Hidden Truth: A book that discusses the dangers, beauty and secrets of artificial intelligence in detail through a poetic approach. it raises critical questions of global concerns with regards to the mechines of AI, softwares and other forms of artificial intelligence that scientists are creating without considering its immediate and future consequence on our fragile world. This book constructively analyzes AI, and the catastrophe that will inevitably befall humanity if the scope of It’s intelligence is not strickly regulated.This book is revolutionary in that it exposes the deep secrets, with regards to artificial intelligence.” — Samuel Onyeche The Literary Scientist: Author of One Hundred Aphorisms of Life and nine other powerful books, available on Amazon.
The majority of the "memorable" results of relativistic quantum theory were obtained within the framework of the local quantum field approach. The explanation of the basic principles of the local theory and its mathematical structure has left its mark on all modern activity in this area. Originally, the axiomatic approach arose from attempts to give a mathematical meaning to the quantum field theory of strong interactions (of Yukawa type). The fields in such a theory are realized by operators in Hilbert space with a positive Poincare-invariant scalar product. This "classical" part of the axiomatic approach attained its modern form as far back as the sixties. * It has retained its importance even to this day, in spite of the fact that nowadays the main prospects for the description of the electro-weak and strong interactions are in connection with the theory of gauge fields. In fact, from the point of view of the quark model, the theory of strong interactions of Wightman type was obtained by restricting attention to just the "physical" local operators (such as hadronic fields consisting of ''fundamental'' quark fields) acting in a Hilbert space of physical states. In principle, there are enough such "physical" fields for a description of hadronic physics, although this means that one must reject the traditional local Lagrangian formalism. (The connection is restored in the approximation of low-energy "phe nomenological" Lagrangians.
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