SSE Talks


Gravito-inertial Propulsion Effect Predicted by the BSM - Supergravitation Unified Theory
Apr 05, 2009 at 7:30 AM EST | S. Sarg


Stoyan Sarg


The Basic Structures of Matter - Supergravitation Unified Theory (BSM-SG) is based on an alternative concept of the physical vacuum [1,2,3,4]. At the basic level the theory suggests a physical model of two fundamental particles associated with the Planck’s scale parameters (time and length). In pure empty space, as assumed precondition of the physical vacuum, they interact by close range forces according to a law called Supergravitation (SG) and congregate in formations possessing vibration properties with embedded frequency ratio equal to the fine structure constant, ~ 1/137. Such formations are embedded in the superfine structure of the physical vacuum and the elementary particles. In the physical vacuum space, the SG forces are strong at atomic distances. The suggested model works well in different fields of Physics. It provides a relation between the electrical, magnetic and gravitational fields with new understanding of the gravity and inertia. The unveiled oscillating properties of the electron [5] permit understanding the physical mechanism of quantum mechanical interaction between the electrons in EM activated plasma and the physical vacuum. The new understanding about the physical vacuum allows predicting a possibility of unidirectional change the gravitational force acting on a material object. By proper modulation the parameters of the physical vacuum, the gravito-inertial mass of a specifically designed spacecraft would be reduced, so it could be accelerated with less energy. Technically the new space drive mechanism could be realized by electromagnetically activated neutral plasma surrounding the spacecraft. In such approach secondary effects, such as optical glow, hissing noise, light bending and disturbed propagation of EM waves and Earth magnetic field would take place in the surrounding zone. In atmospheric environment, the spacecraft may exhibit a reduced turbulence since the mass of the air molecule should be also affected. The predicted space drive should work also in a deep space. In this case a gas cloud surrounding the spacecraft is necessary. Initial laboratory experiments confirm some of the predicted effects, such as, weak propulsion, optical glow, hissing noise and reduced turbulence. Extensive research in this new field is still necessary.


Dr. Stoyan Sarg (Sargoytchev) graduated electrical engineering in 1971 and defended PhD in Physics in 1984, both in Bulgaria. From 1974 to 1990 he actively participated in number of space research projects coordinated by the program Intercosmos established by the former USSR. From 1990 to October 1991 he worked in Arecibo Observatory, PR, as a visiting scientist of Cornell University. In 1991 he moved to Canada and worked in space research projects with ISTS (later CRESTech), University of Western Ontario and York University, where he still holds a position. Apart of his space research activity his major theoretical work is the Basic Structures of Matter – Supergravitation Unified theory. His primary interest resulting from his theory is in gravity and inertia.


(1) S. Sarg, New Approach for Building of Unified Theory, May 2002
(2) Stoyan Sarg, Basic Structures of Matter – Supergravitation Unified Theory, Trafford Publishing, 2006, ISBN 1412083877.
(3) S. Sarg, BSM-SG Unified Theory, IX International Scientific Conference, Space, Time, Gravitation, 7-11 Aug 2006, St. Petersburg, Russia. (Conference Proceedings, 2007).
(4) Books review in Physics in Canada, v. 62, No 4, 206-207, (2006).
(5) S. Sarg, A physical model of the electron according to the Basic Structures of Matter Hypothesis, Physics Essays, vol. 16 No. 2, 180-195, (2003).


Please send a message to scientificexploration{a} to contact this speaker. Your message will be forwarded to them, and they can reply directly to you.

» Back to SSE Talks