DEVELOPMENT OF THE NEW GDV DEVICES

Investigation of various screens

Problem setting:
Diagnostics of the state of living organisms and biological liquids using Kirlian effect, as well known, is carried out by means of observation and mathematical processing of local characteristics of electric gas discharge in high-frequency field. As a matter of principle, these characteristics may be created by two factors, absolutely different in their nature: biological field effect and the system of such trivial effects as the local heterogeneity of moisture evolution, gas release, decrease of skin electrical resistivity, etc. Obviously, the latter effects should most noticeably manifest themselves in course of biological liquids' analysis when the discharge becomes excited directly from the drop surface.

The presence of heterogeneous physical factors acting simultaneously restricts the possibility of differential diagnostics and may become the reason for false conclusions. Therefore, the problem of separation of various physical factors' influence under GDV registration is very topical. To settle this problem an experimental model of GDV screen, excluding the possibility of influence of the trivial factors listed above upon the gas discharge, while keeping and, apparently, intensifying the opportunity of bio-field effect, was developed. The experimental screen is designed in the form of easy-off disk, put on the device's standard screen. This fact enables to implement both integral and differential - purely biofield - analysis effectively. In future, the elaboration of series of screens, individually adapted to some GDV-diagnostics features, is planned.

1. Investigation of various screens.

A standard glass screen was chosen as a screen, parameters of which were compared with those of all the other screens. An additional screen being investigated was put over the first one. The investigation of several screens was carried out in the following modifications:

  1. Standard screen.
  2. Experimental screens.

In view of a test-object being under standard conditions, the experiments were made for the following screens:

  1. Standard screen.
  2. Glass with luminophor (luminophor K73 is applied by slip watering, dried and baked at temperature of 580 deg).
  3. SAM (a surface-avalanche multiplier in the form of regular mesokurtic of discrete figures of specific shape and orientation is formed by aluminum magnetron-vacuum sputtering and photolithography).
  4. K73 SAM.
  5. Vacuum camera (2000 pascal residual vacuum), using mica glass screen. Mica thin layer was stuck on the glass (type 2a).
  6. Further experiments were carried out under 1000 pascal residual vacuum (types 2b) as follows:
    • Vacuum camera.
    • Vacuum camera with mica (television mica, 0.1 mm thick).
    • Vacuum camera with ferrite (magneto-soft ferrite, turned into powder, mixed with fusible glass powder in the proportion of 1-1 by volume; turpentine slip is applied to glass by sprinkling, is dried and baked at temperature of 590 deg).
    • Vacuum camera with silicon (1 mkm thick polysilicon is sprayed over the glass by magneto-vacuum sputtering of silicon target in argon medium).

Analysis of results, received for various screens investigated »

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