Stars and their lenses
There is a helio sphere around our star and it has a reasonably stable diameter, but conditions on the sun can alter the conditions inside the medium
density. Like a sound shock wave travels in air, a density shock wave travels in space. The solar wind medium density allows for transition of waves
into the density of the solar conveyor (solar medium density). these waves can travel from the sun outward to the helio shock boundry, and from the
helio shock against back toward the sun.
In the case of a stable heliosphere system the star is observed to be a constant luminosity and may have a very faint flicker as the light travels
through the various mediums.
When a star has an event that alters the medium density or speed of medium density it effects the heliospherical optics we observe, for example a star
shows a massive burst of light and after a period a secondary but different burst of light occurs.
The primary flash from the star is consistent with a burst of sonoluminesence, and the second flash is a representation of the magnified diameter of
the helio sphere increasing magnification .
The violent expansion of the star has an effect on the medium density it creates a “wave” in the medium density (much like a wave in water 2D)
which ripples outwards at enormous speeds.
The “pressure” wave or “ripple” has an ever increasing magnification effect on the sun due to an increasing diameter optical lens.
In this way we can account for both flashes from a star that shows 2 regular pulses
the vela pulsar
In a star that flashes once periodically in a predictable time frame it could be the star is transitioning across the optical center of a spherical
lens and is only magnified at the optical center. This transitioning across the focal center increases the lumninosity we detect but is from optical
The idea is of a binary star system with a “wobble” and the “wobble” of the stars creates an orbit where this transition through the focal
point is only carried out by one of the stars.
A theory of sonoluminesence powering the sun with vibrational energy allows for massive expansion/contraction in very small amounts of time.
The energy given off from sonoluminesence at the center of a sun like ours cannot be radiated outwards through the hot gases fast enough so over time
the vibrational energy and heat is transferred “convected” through a cooler cloud of gas allowing for vibrational energy to be imparted into the
protective gas layer.
If we look at the sonoluminesence action/reaction we see
A very similar optical effect
To the ones previously described is to be observed
edit on 25-11-2010 by XPLodER because: add descrition