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Spino ether and its vortices: leptons and hadrons

Journal Article:

Abstract

According to the theory advanced by the author, space is occupied by a spino ether lattice. Where no spino lattice exists, there are black holes. The spino is a kind of massive neutrino with a rest mass of about 7.39x10/sup -47/g and a diameter of 4.56x10/sup -34/cm. The distance between spinos in the spino lattice is about 2x10/sup -10/cm. Spino ether is ubiquitous in all matter, pervades atoms and their nuclei and penetrates matter with no resistance. In fact, hadrons and leptons are shown to be vortices of the spino ether. About one km/sup 3/ of space contains spino ether having a mass equal to 10/sup 80/ baryons, equivalent to the total mass of our universe. If the distances between spinos equaled their diameters, 4.56x10/sup -34/cm instead of 2x10/sup -10/cm, then the diameter of the mass equivalent to our universe would be about 2cm. This is in agreement with the size of the premordial universe, before its explosion, as calculated earlier by other theories. It is conjectured that explosions of energy and mass in space are more frequent on a smaller scale than those in the universe, for example novas, or even on a still smaller scale usually associated with  More>>
Authors:
Skorski, R [1] 
  1. College of Engineering, Univ. of Alabama, Alabama (USA)
Publication Date:
Mar 01, 1977
Product Type:
Journal Article
Reference Number:
AIX-10-468140; EDB-79-126833
Resource Relation:
Journal Name: J. Korean Phys. Soc.; (Korea, South); Journal Volume: 10:1
Subject:
72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS; 71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; HADRONS; POSTULATED PARTICLES; LEPTONS; MARS PLANET; CHEMICAL COMPOSITION; DIMENSIONS; REST MASS; SPATIAL DISTRIBUTION; SOLAR CORONA; ELEMENTARY PARTICLES; SPINORS; VORTICES; DISTRIBUTION; FERMIONS; MASS; PLANETS; 645203* - High Energy Physics- Particle Interactions & Properties-Theoretical- Weak Interactions & Properties; 645205 - High Energy Physics- Particle Interactions & Properties-Theoretical- Strong Interactions, Baryon No. = 0- (-1987); 645206 - High Energy Physics- Particle Interactions & Properties-Theoretical- Strong Interactions, Baryon No. = 1- (-1987); 640104 - Astrophysics & Cosmology- Solar Phenomena
OSTI ID:
5877303
Country of Origin:
Korea, Republic of
Language:
English
Other Identifying Numbers:
Journal ID: CODEN: KPSJA
Submitting Site:
INIS
Size:
Pages: 22-31
Announcement Date:

Journal Article:

Citation Formats

Skorski, R. Spino ether and its vortices: leptons and hadrons. Korea, Republic of: N. p., 1977. Web.
Skorski, R. Spino ether and its vortices: leptons and hadrons. Korea, Republic of.
Skorski, R. 1977. "Spino ether and its vortices: leptons and hadrons." Korea, Republic of.
@misc{etde_5877303,
title = {Spino ether and its vortices: leptons and hadrons}
author = {Skorski, R}
abstractNote = {According to the theory advanced by the author, space is occupied by a spino ether lattice. Where no spino lattice exists, there are black holes. The spino is a kind of massive neutrino with a rest mass of about 7.39x10/sup -47/g and a diameter of 4.56x10/sup -34/cm. The distance between spinos in the spino lattice is about 2x10/sup -10/cm. Spino ether is ubiquitous in all matter, pervades atoms and their nuclei and penetrates matter with no resistance. In fact, hadrons and leptons are shown to be vortices of the spino ether. About one km/sup 3/ of space contains spino ether having a mass equal to 10/sup 80/ baryons, equivalent to the total mass of our universe. If the distances between spinos equaled their diameters, 4.56x10/sup -34/cm instead of 2x10/sup -10/cm, then the diameter of the mass equivalent to our universe would be about 2cm. This is in agreement with the size of the premordial universe, before its explosion, as calculated earlier by other theories. It is conjectured that explosions of energy and mass in space are more frequent on a smaller scale than those in the universe, for example novas, or even on a still smaller scale usually associated with the birth of different nuclei. The abundance of iron in the solar corona, on the surface of Mars, and in the Martin sky appears to be due to hadron formation from space itself.}
journal = {J. Korean Phys. Soc.; (Korea, South)}
volume = {10:1}
journal type = {AC}
place = {Korea, Republic of}
year = {1977}
month = {Mar}
}