Ts. D. TSVETKOV, G. PETROV and A. HADZHY

*International Scientific Fund, Sofia, Bulgaria*

TSVETKOV, Ts. D., G. PETROV and A. HADZHY, 2011. Theoretical field analysis of the concrete quantum field system with AN impulse effect in the elementary living cells. *Bulg. J. Agric. Sci.*, 17: 1-10

The question above the possibility to find the complicate appearances connected with the existence of the life and the living systems his place in the mathematical frame of any one concrete quantum field theory by the contemporary state of the theoretical biological and nanophysics problems is open by the consideration of high
topographical complementarities by the London - and Casimir forces involved importantly in the highly specific and strong but purely physical thermodynamically complexing of elementary living cells by enzymes with substrates, of antigens with antibodies, etc. From the new results by the contributions of the environmental freezingdrying and vacuum sublimation (Zwetkow, 1985; Tsvetkov and Belous, 1986; Tsvetkov et al., 1989; Tsvetkov et al., 2004 - 2009) it is hopped that by the great form expressed e.g. by the automodality (scaling) behaviour of the invariant entities described the elementary living cells and systems will be possibly to describe the biological expressions at the standpoint of the nanophysics by means of the behaviour of the concrete quantum field system, e.g. sea scalar particles, in the physical vacuum too.

It is possibly that in this processes in the theory will be introduced an elements of the non locality (similar to the Coulomb forces in the Quantum electrodynamics and the Casimir force by the interaction of the quantum electromagnetic field with the classical objects e.g. classical boundary conditions or the so called string objects in the Quantum chromo dynamics). On essential result of the perturbation theory in the relativistic quantum fields is the importance of the non local operators expansion on the light cone describing by the Quantum chromo dynamics (in the sense of electrodynamics) with the concept of the automodality. This can be understood by means of the consideration of the micro causality conditions for the invariance entities in the sense of the S-matrix theory in the deep inelastic scattering of the lepton hadrons scattering without model consideration (Bogolubov et al., 1976).

At the molecular level (Mitter and Robaschik, 1999) the thermodynamics behaviour is considered by any concrete quantum field system with additional boundaries as by the
Casimir effect between the two parallel, perfectly conducting square plates (side L, distance d, L > d), embedded in a large cube (side L) with one of the
plates at face.