We present the first complete next-to-next-to-leading order analysis of the Standard Model Higgs potential. We computed the two-loop QCD and Yukawa corrections to the relation between the Higgs quartic coupling (lambda) and the Higgs mass (M-h), reducing the theoretical uncertainty in the determination of the critical value of M-h for vacuum stability to 1 GeV. While lambda at the Planck scale is remarkably close to zero, absolute stability of the Higgs potential is excluded at 98% C. L. for M-h < 126 GeV. Possible consequences of the near vanishing of lambda at the Planck scale, including speculations about the role of the Higgs field during inflation, are discussed.
Degrassi, G., Di Vita, S., Elias Miro, J., Espinosa, J.r., Giudice, G.f., Isidori, G., et al. (2012). Higgs mass and vacuum stability in the Standard Model at NNLO. JOURNAL OF HIGH ENERGY PHYSICS(8) [10.1007/JHEP08(2012)098].
Higgs mass and vacuum stability in the Standard Model at NNLO
DEGRASSI, GIUSEPPE;
2012-01-01
Abstract
We present the first complete next-to-next-to-leading order analysis of the Standard Model Higgs potential. We computed the two-loop QCD and Yukawa corrections to the relation between the Higgs quartic coupling (lambda) and the Higgs mass (M-h), reducing the theoretical uncertainty in the determination of the critical value of M-h for vacuum stability to 1 GeV. While lambda at the Planck scale is remarkably close to zero, absolute stability of the Higgs potential is excluded at 98% C. L. for M-h < 126 GeV. Possible consequences of the near vanishing of lambda at the Planck scale, including speculations about the role of the Higgs field during inflation, are discussed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.