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czes
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Hello everybody
I noticed here are people knowing Loop Quantum Gravity. I am not a professional physicist but I like LQG because it doesn't depend on the background what is needed in General Relativity.
I am learning Cramer's Transactional Interpretation of the Quantum Mechanics recently. TI seems very similar to LQG. TI is also background independent.
http://www.npl.washington.edu/ti/
It is interesting how the background is constructed and developed.
There is a wave function as a fundamental quantum information. Wave function is a solution of the Schrodinger's equation. Each particle behaves due to de Broglie theory and oscillate with a Compton wave length l=h/cm .
That wave length is directly seen in Gordon-Klein and Dirac equations.
According to Bell's theorem the quantum information of the Compton wave length has to be non-local. Recently experiments with lasers shows it exactly.
The distribution of the quantum information has to be inversely proportional to the squared distance from a source of the oscillation (rest mass particle).
I assume the non-local information interact in the space far away from a particle. That creates a quantum network (spin foam). Each point absorbs and emits an information. Therefore there is a double loop because absorbed and emitted information. In Cramer's TI this informations (wave functions) interfere and create an atemporal standing wave. It is a quantum information background. The wave function is here something more than a mathematical expression only.
The Cramer's TI is essentially deterministic because the standing wave is created of a product of the wave functions, though their distribution is probabilistic.
Probability ρ(x) = |ψ(x, t)|*|ψ(y, t)| instead of ρ(x) = |ψ(x, t)|^ 2
as in Copenhagen Interpretation.
This product of the wave functions shows interesting features:
Tp / T(x) * Tp / T(y) = -a Fg / Fe
(lp / l x ) * (lp / l y ) = -a Fg / Fe
where Tp is a Planck time, lp is Planck length, lx, ly are Compton wave lengths , a (alfa) is fine structure const. Fg -gravitational interaction, Fe -electromagnetic interaction.
The interaction of the non-local information causes a tension which is a vacuum energy represented by the virtual particles-antiparticles. This virtual plasma has a relativistic mass which may interact gravitationally.
If the distribution of the wave function is as above, the average density of a local sphere of the virtual plasma is inversely proportional to the radius from the center of mass.
I can't catch and measure the vacuum so I accept the datas for our Observable Universe. The local sphere density d=DR/r, where D is the average Universe's vacuum density (8.9x10-27 kg/m^3), r is the radius of the local sphere, R is the Radius of the Observable Universe, is equal to c/H (speed of light/Hubble constant).
It explains Dark Matter effect. The anomalous Dark Matter acceleration a=GM/r^2, where G is the gravitational constant, M is the mass of the vacuum inside the local sphere, and r is the radius of the local sphere.
The mass of the local sphere M=Vd =4.2r^3 Dc/Hr
The anomalous acceleration a=GM/r^2=4.2Gr^3 Dc/Hr^3 =4.2GDc/H=
a=3.25x10-10 m/s^2
where :
G=6.67x10-11 m3/kgs^2
D=8.9x10-27 kg/m^3
c=3x108 m/s
H=71 km/s/Mpc=2.3x10-18 /s
It is a primitive calculation without differentials and integrals but may be it shows something ?
Greetings
I noticed here are people knowing Loop Quantum Gravity. I am not a professional physicist but I like LQG because it doesn't depend on the background what is needed in General Relativity.
I am learning Cramer's Transactional Interpretation of the Quantum Mechanics recently. TI seems very similar to LQG. TI is also background independent.
http://www.npl.washington.edu/ti/
It is interesting how the background is constructed and developed.
There is a wave function as a fundamental quantum information. Wave function is a solution of the Schrodinger's equation. Each particle behaves due to de Broglie theory and oscillate with a Compton wave length l=h/cm .
That wave length is directly seen in Gordon-Klein and Dirac equations.
According to Bell's theorem the quantum information of the Compton wave length has to be non-local. Recently experiments with lasers shows it exactly.
The distribution of the quantum information has to be inversely proportional to the squared distance from a source of the oscillation (rest mass particle).
I assume the non-local information interact in the space far away from a particle. That creates a quantum network (spin foam). Each point absorbs and emits an information. Therefore there is a double loop because absorbed and emitted information. In Cramer's TI this informations (wave functions) interfere and create an atemporal standing wave. It is a quantum information background. The wave function is here something more than a mathematical expression only.
The Cramer's TI is essentially deterministic because the standing wave is created of a product of the wave functions, though their distribution is probabilistic.
Probability ρ(x) = |ψ(x, t)|*|ψ(y, t)| instead of ρ(x) = |ψ(x, t)|^ 2
as in Copenhagen Interpretation.
This product of the wave functions shows interesting features:
Tp / T(x) * Tp / T(y) = -a Fg / Fe
(lp / l x ) * (lp / l y ) = -a Fg / Fe
where Tp is a Planck time, lp is Planck length, lx, ly are Compton wave lengths , a (alfa) is fine structure const. Fg -gravitational interaction, Fe -electromagnetic interaction.
The interaction of the non-local information causes a tension which is a vacuum energy represented by the virtual particles-antiparticles. This virtual plasma has a relativistic mass which may interact gravitationally.
If the distribution of the wave function is as above, the average density of a local sphere of the virtual plasma is inversely proportional to the radius from the center of mass.
I can't catch and measure the vacuum so I accept the datas for our Observable Universe. The local sphere density d=DR/r, where D is the average Universe's vacuum density (8.9x10-27 kg/m^3), r is the radius of the local sphere, R is the Radius of the Observable Universe, is equal to c/H (speed of light/Hubble constant).
It explains Dark Matter effect. The anomalous Dark Matter acceleration a=GM/r^2, where G is the gravitational constant, M is the mass of the vacuum inside the local sphere, and r is the radius of the local sphere.
The mass of the local sphere M=Vd =4.2r^3 Dc/Hr
The anomalous acceleration a=GM/r^2=4.2Gr^3 Dc/Hr^3 =4.2GDc/H=
a=3.25x10-10 m/s^2
where :
G=6.67x10-11 m3/kgs^2
D=8.9x10-27 kg/m^3
c=3x108 m/s
H=71 km/s/Mpc=2.3x10-18 /s
It is a primitive calculation without differentials and integrals but may be it shows something ?
Greetings
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