

Mathematical problems of quantum theory of nanosystems and photosynthesis
September 17, 2015 14:30






The functional mechanics in General relativity
A. I. Mikhailov^{} 
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Abstract:
Functional reformulation of classical mechanics was proposed I.V.Volovich to solve the irreversibility problem of macroscopic dynamics arising in the justification of thermodynamics. Description of the microscopic state of the system by distribution function in the functional mechanics allows to include directly in the equations of dynamics the finite precision of the measurements. This report discusses the derivation of the basic equation of the functional mechanics (special form of the Liouville equation ) for a material point on the $d+1$dimensional spacetime manifold in General relativity. The conditions of normalization of the distribution function and the formulation of the Cauchy problem, which significantly dependent on the choice of the reference system, are specified . The relationship between the probability density in different noninertial reference systems is established by example of twodimensional Rindler space (classic similar effect Unruh). The penetration under the event horizon of a Schwarzschild black hole distribution function corresponding to the solution of the Liouville equation for a freely falling particle is described, which may allow to advance in the resolution of the paradox formation of black holes.

