2.4 Connection between the 3K-radiation and the red-shift

2.4.1 Target

The red-shift is proportional to the Hubble-number. According to /2-8/ is the Hubble-number a constant of nature, who is only known from observation but not from theoretical calculations.

To point at, that can calculated the known number of Hubble, is next to shift the conventional equation:

                                                                                                            2.4.1-1

-          ∆λ_Light is the change (shift) of the lenght of wave of the light, the label is only similar to the label for the middle distance between two particles in the cosmos ∆λ_∆n=1 .

-          H = Hubble-number = 67 km*s^-1 *Mpc^-1      2.4.1-2                        (according to /2-9/)  

-          r = length of way in Parsec ( )

2.4.1-3

                       2.4.1-4

The value of         is now to calculate from a theory, at which the terms _Light ,  as the length of wave of the light and r are used corresponding to the left side of equation above.

2.4.2 Model of red-shift

Assumption:               Because to reach the 3K-state, are the lower length of wave than  make longer (red-shift), and the larger length of wave than  make shorter (blue-shift).

Proceedings:                           By destruction of the 3-particle-structure of  and regeneration of longer  occur the shift (see assumption above). Another say: From a photon is one particle from the tree particles throw out the course and instead of this an another “new” particle in an another distance to the two “old” particles tie up in the course, the same take place with a second particle of the photon (Fig. 2.4.2-1).

                                    Destruction and regeneration are caused by 3-particles-collision. The destruction take place certainly on an enough long way. The shift (new length of wave) can be different. Are possible low shifts for example of a part of the middle distance  of two particles in the cosmos, but very large shifts (to ¥ ).

                                    The most build length of wave is certainly that length, who is most existent.

                                    With this is for the shift  to take:  .

                                    The new formation is to take here in the squares for the particle 2 and 3 in fig. 2.4.2-1

Presentation:

Fig. 2.4.2-1 Change of the length of wave by compensation of two particles of the photon by another particles

Wanted:          Length of way r of the light, where has  changed for  (see equation above) ore in other words: way r, till the particle 2 as well as the particle 3 are in the above presented positions.

Quantitative estimation:         If particle 1 is in the cube above (in Fig. 2.4.2-1 it is shown as a square), must be generated the particle 2 as well as the particle 3 by a 3-particle-collision. Besides they must have the correct direction.

The number of attempts for the generation of the particle 2 is the same number of attempts for one 3-particle-collision in the cube of the particle 2:

During of these attempts has travel particle 1 the way λ_max . In addition must hit at this generation the correct direction. At a photon has the last particle the same direction as the first particle. The most often photon has the length of wave λ_max . Consequently meet the same direction after  attempts. In order to arrival both, are need therefore * attempts. The way of particle 1 is with that * * λ_max . Just so must take these attempts for the particle 3.

In order to be true generation at direction as for particle 2 as for particle 3, are need consequently  attempts.

The needed way for  attempts is consequently         2.4.2-1

With that exist for the left part of the equation above for the calculation of H now  :

                                                                                2.4.2-2

In this equation remain a dependence of the shift from  .

With the value of  and  followed for different  from the area of visible light:

for               instead of ( )

 (short-wave-limit of the visible light)                                                                      2.4.2-3

for                                                    2.4.2-4

 (Maximum of intensity of the sun: about  ;Maximum of the sensitiveness of the human eye: about  )

for                                                            2.4.2-5

 (long-wave-limit of the visible light)

Comment: The calculated shift is found in the order of the value of target , but the deviation is comparatively high. The correction of H, λ_max and ∆λ_∆n=1  lead here in comparison to the value from 2003 a deterioration of the precision. The dependence of the wave-length is unexpected. This fact is further to investigated. (end of comment)

Application to the reach of an information based of light

With the red-shift on the base above is calculable the reach of an information based of light. The reach is get to, if the wave-length  has changed by  to the most wave-length  and with that is not different to the “3 K-noise”.

With that follow from equation above with                           2.4.2-6

                                                                      2.4.2-7

and final:

                                                                  2.4.2-8

                                                                                                                                 2.4.2-9

The reach of an information is with that maximal  light-years.

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