Micro Lipton Geo Vision Home

 

Introduction:

The basis of Microleton GeoVision Technology resides in the fact that all physical objects have a unique Microlepton field, which arises during the interaction of light elementary particles. These light elementary particles are called “Microleptons”.

The unique composition and special distribution of a particular Microlepton field intensity depends on three guidelines: 

1-     Chemical composition of the subject.

2-     Distribution of the chemical elements due to the volume of the subject.

3-     Form of the subject.

Microleptons possess a longer length “free run” inside any substance, and are mostly not subject to screening by environmental conditions. Because of this, the intensity of any particular geological Microlepton field inside the earth differs only slightly from the same field measured on the surface or from space.

Beginning with Satellite images of emissions from some subsurface deposits, this new technology will detect and map the presence of oil, gas, water, and various minerals.

During our process of special treatment called Visualization, the Microlepton image is screened by use of a special filter when searching for a particular substance. Once the desired substance is located via its unique Microlepton field emanations, the image is transferred to an optical diapason. At this point the image becomes visible.

At this time Microlepton filters are in use for:

*Oil

*Gas

*Water

*Gold

*Diamonds

Other filters have been developed, and will soon be available.

Additional software programs allow us to identify the size and shape of the material.

This allows for determination of the field outline and its exact location. This information is processed to a geological map providing field size, shape and location for development.

When compared to more traditional methods of geological research and exploration, Microlepton GeoVision Technology has some distinct advantages, which cannot be ignored, or equaled.

A. The technology is completely ecologically clean.

B. It is much less expensive than present traditional methods.

C. It is much faster - 15 to 30 times faster than present technologies. Estimated time to conduct a complete analysis of an area 100Km X 100Km is normally only 4 to 5 months.
Scope of Work:

The application of Microlepton GeoVision Technology is performed in three stages:

First stage - Visualization.

1. Order and receive of space photos of the investigated area.

2. Express analysis of investigated area on the satellite-photos with the creation of a control matrix of searched object.

3. Microlepton treatment (visualization) of satellite-photos with the aim of determining and eliciting the energy of the Microlepton field structure of the searched geological objects.

4. Treatment of the obtained results with the use of a specialized software program and determination of perspective areas.

The process of visualization of ML emanation. The satellite photo (C), containing ML information on oil deposits, is highlighted ML by the ML generator (B). Further, the ML emanation, containing the information about all sources in thickness of the Earth, is put through a special ML filter (D), which allows the ML emanation to pass through appropriate to the characteristic emanation of the searched substance. Further, this emanation, filtered by useful component, is applied to photographic material (E), prepared by a special procedure which ensures the photo registration of ML searched substance. In this case, the searched substance is oil, though other ML filters for other minerals have been developed. 

 

 

 

 

Second stage - Field expedition

1.The research of the determined area by helicopter with the use of specialized onboard equipment.

2.Clarification of oil and gas deposit outlines and the bedding depth of productive horizons.

Expedition to the researched area and the execution of direct measurements of ML fields by means of specialized equipment, installed onboard the helicopter.

 

 

Third stage - Data processing.

1. The complex analysis of Microlepton information and its comparison with the information obtained by other geological and geophysical methods.

2. Composition of digital maps, mathematical and cartographic modeling of searched geological objects, the estimation of prospective resources by C3 category, construction of the spatial model of the deposit and preliminary estimation of reserves by C2 category.

 

The computer processing of the ML image of the investigated area identifies  the model of the  Microlepton field with oil deposits in order to construct digital maps of the Microlepton field intensity of oil deposits and to conduct mathematical and cartographic modeling of those oil deposits.

 

 

 

 

 

 

 

 

 

 

The complex analysis of information received by ML GeoVision™ Technology and other geological and geophysical methods allows increasing exactness of the forecast and efficiency of the mineral deposits search.

Home