Kinetics of Formation of Structures Revealing Quantum Properties
The method developed to investigate asymptotics of forming structures with quantum properties is based on extended interpretation of the principle of uncertainty with regard to the space of object sizes and on kinetic concept about growth of these objects from small structural embryos. It can be used to obtain adequate estimates for characterizing formation of subnuclear particles and nuclei, nano-and mesostructures, astrophysical and cosmological objects. Under the proposed kinetic approach the principles of uncertainty and absolute certainty mutually complement each other.
Components of the Book:
  • Front Matter
  • Chapter 1 Introduction
  • Chapter 2 Unified Kinetic Approach for Microcosm and Mesocosm
  • Chapter 3 Cluster Model of Formation of Subnuclear and Subatomic Objects
  • Chapter 4 Mesokinetics of Growth of Nanostructured Objects
  • Chapter 5 Phenomenological Determining the Size-Time Relations for Astrophysical and Cosmological Structures
  • Chapter 6 Discussion and Conclusion
Readership: Students, academics, teachers and other people attending or interested in Kinetics of Formation of Structures Revealing Quantum Properties.
1
Front Matter
Dr. Emil Edipovich Lin
PDF (173 KB)
7
Chapter 1 Introduction
Dr. Emil Edipovich Lin
PDF (138 KB)
15
Chapter 2 Unified Kinetic Approach for Microcosm and Mesocosm
Dr. Emil Edipovich Lin
PDF (193 KB)
27
Chapter 3 Cluster Model of Formation of Subnuclear and Subatomic Objects
Dr. Emil Edipovich Lin
PDF (262 KB)
39
Chapter 4 Mesokinetics of Growth of Nanostructured Objects
Dr. Emil Edipovich Lin
PDF (546 KB)
59
Chapter 5 Phenomenological Determining the Size-Time Relations for Astrophysical and Cosmological Structures
Dr. Emil Edipovich Lin
PDF (207 KB)
71
Chapter 6 Discussion and Conclusion
Dr. Emil Edipovich Lin
PDF (309 KB)
Dr. Emil Edipovich Lin (Biography), principal research associate, Institute of Physics of Explosion, Russian Federal Nuclear Center– All-Russia Research Institute of Experimental Physics (RFNC- VNIIEF).

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