MSSM Higgs Mass

The MSSM Higgs Mass is a prediction of the Minimal Supersymmetric Standard Model. Because the Higgs has not yet been found, despite extensive searches, the MSSM has to go to great lengths to make the Higgs sufficiently heavy.

The mass of the lightest Higgs boson is set by the Higgs quartic coupling. Quartic couplings are not soft supersymmetry breaking parameters since they lead to a quadratic divergences to the Higgs mass. Furthermore, there are no supersymmetric parameters to make the Higgs mass a free parameter in the MSSM (though not in non-minimal extensions). This means that Higgs mass is a prediction of the MSSM. The Higgs boson was not found at LEP II and the four experiments placed a lower limit on the Higgs mass of 114.4 GeV. This lower limit is significantly above where the MSSM would typically predict it to be, and while it does not rule out the MSSM, the non-discovery of the Higgs makes proponents of the MSSM nervous.

The only susy preserving operator that create a quartic coupling for the Higgs in the MSSM arise for the D-terms ofthe SU(2) and U(1) gauge sector and the magnitude of the quartic coupling is set by the size of the gauge couplings.This leads to the prediction that the Standard Model-like Higgs mass (the scalar that couples approximately to thevev) is limited to be less than the Z mass

$m_{h^0}^2 le m_{Z^0}^2cos^2 2eta$ .

Since supersymmetry is broken, there are radiative corrections to the quartic coupling that can increase the Higgs mass. These dominantly arise from the top sector

$m_{h^0}^2 le m_{Z^0}^2cos^2 2eta + frac{3}{pi^2} frac{m_t^4 sin^4eta}{v^2} log frac{m_{ ilde{t}{m_t}$

where $m_t$ is the top mass and $m_{ ilde{t$ is the mass of the top squark. This result can be interpreted as the RG running of the Higgs quartic coupling from the scale of supersymmetry to the top mass -- however since top squark mass should be relatively close to the top mass, this usually a fairly modest contribution and increases the Higgs mass to roughly the LEP II bound of 114 GeV before the top squark becomes too heavy.

Finally there is a contribution from the top squark A-terms

$mathcal{L} = y_t, m_{ ilde{t, a; h_u ilde{q}_3 ilde{u}^c_3$

where $a$ is a dimensionless number. This contributes an additional term to the Higgs mass at loop level, but is not logarithmically enhanced

$m_{h^0}^2 le m_{Z^0}^2cos^2 2eta + frac{3}{pi^2} frac{m_t^4 sin^4eta}{v^2} left(log frac{m_{ ilde{t}{m_t} + a^2 ( 1 - a^2/12)
ight)$

by pushing $a
ightarrow sqrt{6}$ (known as 'maximal mixing') it is possible to push the Higgs mass to 125 GeVwithout decoupling the top squark or adding new dynamics to the MSSM.

If the Higgs is found above 125 GeV (along with the other superparticles) at the LHC, then this will strongly hint at new dynamics beyond the MSSM such as the 'Next to Minimal Supersymmetric Standard Model' (NMSSM).

ee also

*little hierarchy problem

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