A theoretical and experimental search has been conducted for a model to explain the therapeutic effect of the "Philippine healer" - ultrafast healing of medical wounds. We came to the conclusion that the AIM+ - model is more suitable than the others. Previously [1-3] were presented: FK, DFK, AIM, AIM+ models.

The FK model is an elastic-periodic chain of atoms (CH1) in a periodic potential, which is described by commensurate and incommensurate phases.

In the DFK model, the periodic potential of the FK model is replaced by a second elastically periodic chain of atoms (CH2).

In the AIM model, the cosmological applications of the FK + DFK models are considered, through the creation of a time chain (CH1 + CH2), a type of open system.

The rubaiyat of Omar Khayyam voiced the cosmological idea of the AIM model: 

          “Oh, woe! Nothingness is embodied in our flesh,

           Nothingness is surrounded by a border of celestial spheres.

           We tremble in horror from birth to death:

           We are ripples on Time, but it is nothing.”

In the AIM+ model, CH1 atoms returning to the jerk point form a cloud of gas, which condenses on the energy excitations of the time chain (CH1+ CH2), forming associated states with them.

Let us call the emerging states “living cells” (LC). LCs can be two-dimensional, three-dimensional, etc. It is possible that the first three-dimensional LC was formed at the stage of inflationary growth of the Universe long before the point of the “Big Bang”; let’s call it “inflaton”. 

AIM+   model considers the phase of inflationary growth of the Universe as the initial stage of the development of a microbial colony.

It is known that communities of biological cells are open biological systems, which at the initial stages develop according to an exponential law (I-phase). But then they plateau very quickly. We believe that the I-phase can be extended by creating a coherent state for the LC (CR mode), when the entire community develops coherently.

In experiments [4, 5] the problem of creating one of the possible CR modes in microbiological systems was solved: - stimulating the growth of a colony of a microbiological culture of e.coli with a physical device with spatial coherence, by resonantly matching the size of a biological cell with the coherence period of the device. As a result: - we observed CR stimulated by an external field - modes with single and multiple subcultures of the microbiological culture. 

Crystals of diamond (C}, silicon (Si), and silicon carbide (SiC) were dissolved in KOH and NaOH, after which the alkalis were washed out with water. 

Analytical measurements of the obtained mono clays: [diamond(C}; silicon (Si); quartz (SiO₂); (SiC)] + H₂O were carried out.

The purpose of the research is to test the hypothesis of a "nano dielectric molecule".

In [1], it was assumed that all dielectric crystals with cleavage planes can be chemically decomposed into a finite number of nanocrystalline blocks. In furtherance of this hypothesis, we conducted a series of experiments with crystals of diamond, silicon, and silicon carbide, similar to [2-6]:

1. After diamonds were dissolved in KOH and alkali was washed out with water, water-diamond (C- mono clay) was obtained [1-6]. 

2. After silicon single crystals were dissolved in KOH and NaOH and alkali was washed out with water, silicon (Si - mono clay) and quartz (SiO₂ - mono clay) were obtained.

3. After dissolving silicon carbide crystals in KOH and washing out the alkali with water, SiC - mono clay was obtained. 

By clay, we mean a semi-liquid substance consisting of crystals of various chemical compositions and water. 

Mono-clay is a clay consisting of identical nano-dielectric crystals dissolved in water.

It turned out that the X-ray structure of mono clays is absent in the semi-liquid state, but it reappears during annealing.

Conclusions: 

1. Dielectric crystals consist of identical nano blocks (nano dielectric molecules).

2. Dielectric crystals, after dissolving and washing out the solvent with water, turn into mono-clay of the corresponding crystal.