Nuclear field

Structurally deformed region in the universal medium is a ‘field’. A field is represented by imaginary lines of force. Curved (angular) lines of force indicate an electric field. Linear lines of force indicate a magnetic field. Radial lines of force indicate a nuclear field. Latticework squares of 2D energy fields (of universal medium) in a radial distortion-field are deformed in linear directions, radially towards or away from a central point. Its lines of force are straight lines with arrows, radiating towards or away from a central point. Interaction between two radial distortion-fields gives rise to ‘nuclear’ nature of distortion-fields. Hence, radial structural distortions in universal medium are a ‘nuclear field’. Nuclear fields are usually produced only by electrons and positrons. Under specific conditions, certain very large macro bodies (towards end of their life) also produce nuclear fields, which may cause their destruction by explosion. Very high intensity explosions also cause nuclear fields. If structural distortions (lines of force) are directed outwards from the central point, they produce ‘repulsive nuclear field’. Fundamental 3D matter-particles, associated with repulsive nuclear field (the electrons), apparently repel all other primary and fundamental 3D matter-particles. If structural distortions (lines of force) are directed inward towards a central point, they produce ‘attractive nuclear field’. Fundamental 3D matter-particles, associated with attractive nuclear fields (the positrons), apparently attract all other primary and fundamental particles. Due to geometry of 2D energy field structure, nuclear fields cannot add to or subtract from each other.