Products

IUMAB Products:

GDVCAMERATranslighters, The Biointernet  Mask, Files with Functions

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Korotkov’s images

Korotkov’s images – BEO gram, GDV images, EPI images, Bio-Well images, etc Korotkov’s images – Kirlian images downloaded and processed on GDV Software Digital Kirlian Photography Korotkov image is a complex 2-D figure with each pixel characterized by its brightness coded by integer in the range of 0 (“black”) to 255 (“white”). Geometrical parameters of … Read more

Translighters

Translighters BLAGA System by Dr. Sergey Avdeev

Translighters – IUMAB and BLAGA Research and Production

Since 1998

Translighters by Dr. Avdeev
Translighters by Dr. Avdeev

Translighters technologies by Dr. Sergey Avdeev and Kirill Korotkov:

  • Translighters Devices
  • Translighters Games
  • Translighters Digital

Translighters devices:

  • Home appliance
  • The Biointernet Equipment
  • Personal development devices

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Aura y Ciencia

Aura y Ciencia.

Una tecnología para la Consciencia.

Autor: Fernando Sánchez Quintana.

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Light after Life

“Light After Life”

Light After Life

A Scientific Journey Into the Spiritual World<

Light after Life

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IUMAB Congress Abstracts 1998 

IUMAB Archive 1998  IUMAB Congress Abstracts 1998  Science Information Spirit Bondarev Human Monopulse Plasmography IUMAB Congress Abstracts 1998. Bioelectrography Research. Welcome to IUMAB! Science Information Spirit on IUMAB Library! GDVCAMERA ИССЛЕДОВАНИЕ ПРОЦЕССА ФОРМИРОВАНИЯ ИЗОБРАЖЕНИЙ ПРИ ГАЗОРАЗРЯДНОЙ ВИЗУАЛИЗАЦИИ ТЕЛЕВИЗИОННЫМ КОМПЬЮТЕРНЫМ МЕТОДОМ К.Г. Коротков, А.Л. Кузнецов, Б.А.Крылов В последнее время все большее распространение приобретает методика исследования характеристик … Read more

The History of Bioelectrography

Human Light System
Kirlian photograph of the electromagnetic discharge between two fingertips.
Kirlian photograph of the electromagnetic discharge between two fingertips.

The Bioelectrography History

Since 500BC 

HISTORY OF GDV/EPI BIOELECTROGRAPHY

KIRLIANGRAPHY, ELECTROPHOTONICS

see more about Different names of Bioelectrography

500BC – Testing of genuine amber by static process in China

1541-1603 – Electroscope, William Gilbert

William Gilbert
William Gilbert

William Gilbert, also known as ‘Gilberd’, was a famous researcher in magnetism. He was famous during the time of Queen Elizabeth I and is best known for his publication, ‘De Magnete’. Credited as one of the originators of the term of electricity, William Gilbert is also known as the father of electricity, magnetism and electrical engineering. He travelled extensively and wrote many publications such as ‘Magnetisque Corporibus’ and ‘ET de Magno Magnete Tellure’ during his lifetime. Apart from being a scientist, Gilbert led a parallel career as an astronomer. He studied the moon’s surface without a telescope and concluded that the craters were in fact land, and the white patches on the moon’s surface were water bodies. One of his other significant contributions was when he pointed out that the motion of the skies occurred due to the rotation of the earth. One of the first people to try to map the markings of the moon’s surface, Gilbert was a celebrated astronomer and scientist. His theories on magnetism and electricity had also been the subject of controversy for many of his successors.

electroscope
electroscope

An electroscope is an early scientific instrument that is used to detect the presence and magnitude of electric charge on a body. It was the first electrical measuring instrument. The first electroscope, a pivoted needle called the versorium, was invented by British physician William Gilbert around 1600. The pith-ball electroscope and the gold-leaf electroscope are two classical types of electroscope that are still used in physics education to demonstrate the principles of electrostatics. A type of electroscope is also used in the quartz fiber radiation dosimeter. Electroscopes were used by the Austrian scientist Victor Hess in the discovery of cosmic rays.

Electroscopes detect electric charge by the motion of a test object due to the Coulomb electrostatic force. Since the electric potential or voltage of an object with respect to ground equals its charge divided by its capacitance to ground, an electroscope can be regarded as a crude voltmeter. However, the accumulation of enough charge to detect with an electroscope requires hundreds or thousands of volts, so electroscopes are only used with high-voltage sources such as static electricity and electrostatic machines. Electroscopes generally give only a rough, qualitative indication of the magnitude of the charge. An instrument that measures charge quantitatively is called an electrometer.

1560–1624 – Marco Antonio de Dominis

Marco Antonio de Dominis – Dalmatian ecclesiastic, Catholic archbishop, adjudged heretic of the Catholic Faith, and man of science

1611 – scientific work entitled: Tractatus de radiis visus et lucis in vitris, perspectivis et iride, in which, according to Isaac Newton, he was the first to develop the theory of the rainbow by drawing attention to the fact that in each raindrop the light undergoes two refractions and an intermediate reflection.

His claim to that distinction is, however, disputed in favor of Descartes.

In 1625 his work “Euripus, seu de fluxu et refluxu maris sententia” was published posthumously in Rome. It is an important source for the strange story of the theory of tides. It contains an exact but qualitative, luni-solar explanation of the phaenomena. This explanation is directly connected with the later developments.

1602-1686 – Electrostatic machine, Otto von Guerricke & Hauksbee

Otto Von Guerickes Sulphur Ball
Otto Von Guerickes Sulphur Ball

Otto von Guericke’s electrostatic machine evolved into increasingly improved instruments in the hands of later scientists. Otto von Querricke (1602-1686), the Burgomeister of Magdeburg best known for his demonstration of the effect of atmospheric pressure on evacuated bodies (the Magdeburg Hemispheres), also showed the electrical effects were obtained by rubbing glass. Originally, he used a globe of sulphur mounted on a shaft, with the hand rubbing the rotating sphere. The sulphur was cast in a spherical shell of glass that was subsequently broken away; soon it was discovered that glass, and not sulphur, was the key ingredient of the demonstration. About 1700 Francis Hauksbee the Elder suggested that a glass cylinder be used in place of the sphere.

In the early 1700s, Francis Hauksbee designed his own electrostatic generator, a feat stemming from his studies of mercury.

1661-1713 – Resulted in the reproduction of electrical phenomena in the laboratory

1622 – Magnetic declination varies with time, Edmund Gunter

1671 – Electric organ of torpedo fish studied, Francesco Redi

1672 – Living tissues react to environment, Francis Glisson

1702 – Air at low pressure glows during an electrical discharge, Hauksbee

1704 – Electrons, particles, wave forms. Newton

1729 – Photometry, Pierre Bouger

1729 – Electric current, Stephen Gray

1731 – Anything can be charged with static electricity if isolated by non conductive materials, Stephen Gray

1733 – Two types of static electric charge, like charges repel whilst unlike charges attract, (later opposed by Benjamin Franklin), Charles Francois de Cistemay

1746 – Leyden Jar (Leiden) for storing static electricity Pieter Van Musschenbrooek & E G Pieter got a shock when using it suggesting a connection between lightning, VonKleist

1747 – A pointed conductor draws off an electric charge from a charged body, Benjamin Franklin

1747 – First electrometers, Abbe Jean-Antoine Nollet (Paris)

1756 – Electricity and the origin of light and the wave theory, Mikhail Valilievich Lomonosov

1766 – That all nerves follow a path through the spinal column to the brain and that the nerves stimulate the muscles, A Von Haller

1766 – Improved electrometer, Horace Benedict de Saussure (Suisse)

1766 – Chart of magnetic inclination, Johna Wicke (German)

1766 – Joseph Priestley, English explorer, registered the colored circles which are obtained by electrical discharge on a metal surface («Priestly’s rings»).

1771 – Tissue conduction of electricity, Luigi Galvani

1775 – Early electrical condensers, Alessandro Volta

1777 – Electrographic images, G C Lichtenberg

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