Non-Local Astrophysics: Dark Matter, Dark Energy and Physical Vacuum highlights the most significant features of non-local theory, a highly effective tool for solving many physical problems in areas where classical local theory runs into difficulties. The book provides the fundamental science behind new non-local astrophysics, discussing non-local kinetic and generalized hydrodynamic equations, non-local parameters in several physical systems, dark matter, dark energy, black holes and gravitational waves.
- Devoted to the solution of astrophysical problems from the position of non-local physics
- Provides a solution for dark matter and dark energy
- Discusses cosmological aspects of the theory of non-local physics
- Includes a solution for the problem of the Hubble Universe expansion, and of the dependence of the orbital velocity from the center of gravity
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
1. Nonlocal Kinetic Equations 2. Theory of Generalized Hydrodynamic Equations 3. Nonlocal Parameters in the Different Physical Systems 4. Dark Matter Problem 5. The Birth of the Universe and Dark Energy 6. Quantization, Soliton and Traveling Waves Formation in Gravitating Systems in the Earth Conditions 7. To the Nonlocal Theory of Variable Stars 8. Application of the Nonlocal Physics in the Theory of the Matter Movement in Black Channels 9. Analogue of the Hall Effect in the Relativistic Nonlocal Theory of Massless Particles
Professor Boris V. Alexeev is Head of the Centre of the Theoretical Foundations of Nanotechnology and Head of the Physics Department at the Moscow Lomonosov University of Fine Chemical Technologies, Moscow, Russia. In the 1990s he was Visiting Professor at the University of Alabama, Huntsville, AL, USA, and Visiting Professor at the University of Provence, Marseille, France. Professor Alexeev has published over 290 articles in international scientific journals and 22 books. He has received several honors and awards, and is member of six societies.