Cmbr

[Mike C]

CAUSE OF CMBR

 

The Cosmic Microwave Background Radiation is portrayed as the clincher evidence to prove the credibility of the Big Bang Universe. The CMBR is portrayed as a perfect black body radiation curve.

 

However, here, I will provide a hypothesis that refutes the link between the CMBR and the BB.

 

On page 266 of the Michael Zeilik book entitled ASTRONOMY, The Evolving Universe, Sixth edition, is an illustration (figure 13.6) of the solar radiation curve as viewed outside our atmosphere in comparison to a black body radiation curve.

I tried to locate a website with this illustration but cannot find one. Some others may have more luck.

 

Notice that at the peak temperature of the Sun’s curve, it extends

above the BBRC by a certain amount and otherwise is within the BBRC.

I believe this enhancement at the peak is the result of ‘plasma radiation’ in

addition to the atomic hydrogen radiation which conforms to the BBRC.

 

The Bohr atomic explanation of the hydrogen spectrum tells us how the photon pulses are generated and radiated. The transition of the electron from an outside orbit to an inner orbit is shown as the cause of the photon radiation emission.

I believe these electron transitions trace out a black body photon pulse in all the various electron transitions. The addition of all these pulses then trace out the BBRC.

Only electron transitions in 'closed orbits' radiate the BBRC. The reason for this is that the electron velocity increases as it moves from the outer orbit to the inner orbit. At the same time, its orbital trajectory is being reduced from the larger outer orbit to the smaller inner orbit. The lead portion of these black body pulses is the lower energy portion of the pulse and then ends at the high energy portion of the pulse. This is just opposite to the way they are shown in the physics books.

 

On the other hand, electron radiations in a plasma would radiate from an open ‘hyperbolic orbital’ passage where the electron velocity is too high for capture into a closed orbit.

These photon pulses would trace out a ‘sign wave’ pulse rather than a BBRC pulse due to the variation of the electron’s velocity that does not come from a closed transitional orbit but just an open passage of the electron by the nucleus. .

 

These sign wave pulses then integrate at the high end of the BBRC to increase the BBRC’s peak to depart from the normal BBRC pulse as the illustration in the book shows.

 

In the BB recombination period in its early history that brought about

the transition of the matter from a plasma to ordinary matter, the supposed remnant of the current CMBR, this transition would include a 'mix' of some plasma radiation with the newly formed matter radiation.

Therefore, for the reasons given above, the current CMBR cannot be a remnant of the BB because it would not be a perfect BBRC as it is being promoted.

 

The current CMBR must then be the result of the particles in interstellar and

intergalactic space that result from space dust and molecular particles where their radiations are the result of electron transitions within closed orbits. This would explain why the CMBR is a perfect BBRC.

 

Also, the predicted temperatures by Gamow et al (1948) of the CMBR of 5K and later revised to 10K, were more inaccurate then McKellars (1941) interstellar observation of a particle at 2.3K.

 

The only logical explanation for the CMBR is that it is a ‘Thermal Equalibrium’ spatial particle temperature in compliance with the 2nd Law of Thermodynamics where heat flows from hot to cold in a Steady State Universe.

 

NS