Physical Foundations of Cosmology

4.4 “Symmetry restoration” and phase transitions 171

where the integralIis defined in (4.104) andVGis the energy density of the vacuum
fluctuations of the vector field with mass

mG(χ ̄)=eχ. ̄

The factor 3 in (4.115) is due to the fact that the massive vector field has three degrees
of freedom at every point in space. The calculation of the temperature-dependent
contribution of the vector field essentially repeats the calculation for the scalar field
and the final result,which includes both quantum and thermal contributions, is

Veff(χ, ̄ T)=V+

3 m^4 G(χ ̄)

64 π^2

ln

m^2 G(χ ̄)

μ^2

+

3 T^4

4 π^2

F−

(

mG(χ ̄)

T

)

, (4.116)

wheremG(χ ̄)=eχ ̄andF−is defined in (4.111).
At zero temperature the last term vanishes and for the quartic potential in ( 4.107)
we obtain the following result:

Veff=

λR

4

χ ̄^4 +

m^2 R

2

χ ̄^2 +R+

3 e^4

32 π^2

χ ̄^4 ln

χ ̄

χ 0

, (4.117)

where the renormalized constantsλR,mR,Rcan be expressed through experi-
mentally measurable parameters. The concrete set of these parameters depends on
the normalization conditions used.

Problem 4.19Assume that the potentialVeffhas its minimum at someχ 0 = 0
and is equal to zero at this minimum, that is, there is no cosmological constant in
the broken symmetry phase. Solving the equationsVeff(χ 0 )= 0 ,Veff′(χ 0 )=0 and
Veff′′(χ 0 )=m^2 H,verify that

λR =

m^2 H

2 χ 02

−

9 e^4

32 π^2

, m^2 R=−

m^2 H

2

+

3 e^4 χ 02

16 π^2

,

R=

χ 02

4

[

m^2 H

2

−

3 e^4 χ 02

32 π^2

]

.

(4.118)

Thus we have expressed the renormalized constants in (4.117) in terms ofχ 0 ,the
gauge coupling constanteand the Higgs massmH.

Given that in the broken symmetry phase

MG≡mG(χ 0 )=eχ 0 , (4.119)

we note that ifm^2 H< 3 e^2 M^2 G/ 8 π^2 ,thenm^2 R> 0 ,and the potential (4.117) ac-
quires a second local minimum at ̄χ= 0 .Moreover, form^2 H< 3 e^2 M^2 G/ 16 π^2 ,this
minimum is even deeper than the minimum atχ 0 ,becauseVeff(χ ̄= 0 )=R< 0.
Therefore symmetry breaking becomes energetically unfavorable. We will see later