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attempt to reconcile the 2 vacuums of physics with the Planck linear mass


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Posted (edited)

 Hello

for H0=67.66 km/s/Mpc i.e. tH = 4.5606*1017s, and ΩΛ = 0.68694 we have:


ρc,tH = 3 / (8 π G tH2) = 8.5988 * 10-27 kg/m3.


- by dimensional analysis, looking for the value of the cosmological constant Λ of dimension m-2 and with a mixture of relativity, deterministic Planck units we have:


 Λ = 8π ΩΛ ρc,tH lp / mp = 1.1026 * 10-52 m-2.

[math]\Lambda = 8 \pi \Omega_{\Lambda} \rho_{c,t_H} \frac{l_p}{m_p}=1.1026 *10^{-52} m^{-2}[/math]

- This is exactly the value of the cosmological constant of the ΛCDM model. The formula of the density of the" quantum vacuum" at our time tH0, seems to correspond to the formula of the density of the quantum vacuum at the time tp.

This comes from a toy model, whose only values we can be sure of are tp and tH thanks to the ΛCDM model. Is this an acceptable solution to the cosmological constant problem . (???) we have the quantum field theory energy with this equality :

 

8π/3 ρc,tp lp / mp = 3.8281 * 1069 m-2 =lp-2

[math] \frac{ 8 \pi}{3} \Omega_{\Lambda} \rho_{c,t_p} \frac{l_p}{m_p}=3 8281.*10^{69} m^{-2}[/math]

 


 note that mp / lp is the Planck linear mass.

 

 

Edited by stephaneww
  • stephaneww changed the title to attempt to reconcile the 2 vacuums of physics with the Planck linear mass
  • 4 weeks later...
Posted (edited)

Hello and Hum

... it is nice to calculate:

ΩΛ,tH = 3 Λ c2 tH2

with tH= Planck time : 5.391247*10^(-44) s

c = 299792458 m/s

and Λ = 1.102 * 10^(-52) m-2

ΩΛ,tp= 9.60 * 10-123

we make:

(1 / ΩΛ,tp)* 8 π / 3 = 8.73 * 10122

to have the value of the vacuum catastrophe:

(with vacuum energy value in QFT = lp^(-2) = 3.83 *10^(69) m-2

 

8 π * 3.83 *10^(69) / 1.105 * 10^(-52) = 8,73 * 10^(122)

 

basically the vacuum catastrophe would be the density parameter of dark energy at Planck time in the ΛCDM model and that would be no problem.


Does it make sense or not ?

 

Edited by stephaneww
Posted (edited)

ooops big error sorry and it's why I think have no anwsers :

read :

ΩΛ,tH = 1/3 Λ c2 tH2   and not ΩΛ,tH = 3 Λ c2 tH2  , tH= 1/H Hubble's constant

with tH= Planck time : 5,391247*10^(-44) s

c = 299792458 m/s

and Λ = 1,102 * 10^(-52) m-2

ΩΛ,tp= 9,60 * 10-123

we make:

(1 / ΩΛ,tp)* 8 π / 3 = 8,73 * 10122

to have the value of the vacuum catastrophe:

(with vacuum energy value in QFT = lp^(-2) = 3,83 *10^(69) m-2)

lp =1,616255*10^(-35) m

and this small one error too :

8 π * 3,83 *10^(69) / 1,102 * 10^(-52) = 8,73 * 10^(122)

and not :

8 π * 3.83 *10^(69) / 1.105 * 10^(-52) = 8,73 * 10^(122)

so now are you agree with :

"basically the vacuum catastrophe would be the density parameter of dark energy at Planck time in the ΛCDM model and that would be no problem."

Please ?

EDIT :

more easy :

ΩΛ,tp = 1/3 Λ c2 tp2

 

vacuum catastrophe = Λ / lp-2 = Λ lp2

lp = c tp

so

vacuum catastrophe = Λ c2 tp2

vacuum catastrophe = 3 ΩΛ,tp

 

Edited by stephaneww

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