Induced top-Yukawa coupling and suppressed Higgs mass parameters
Open Access
- 21 June 2005
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 71 (11) , 115009
- https://doi.org/10.1103/physrevd.71.115009
Abstract
In the scenarios with heavy top squarks, mass parameters of the Higgs field must be fine-tuned due to a large logarithmic correction to the soft scalar mass. We consider a new possibility that the top-Yukawa coupling is small above TeV scale. The large top mass is induced from strong Yukawa interaction of the Higgs with another gauge sector, in which supersymmetry breaking parameters are given to be small. Then it is found that the logarithmic correction to the Higgs soft scalar mass is suppressed in spite of the strong coupling, and the fine-tuning is ameliorated. We propose an explicit model coupled to a superconformal gauge theory which realizes the above situation.Keywords
All Related Versions
This publication has 55 references indexed in Scilit:
- Fine-tuning constraints on supergravity modelsPhysics Letters B, 2000
- Haggling over the fine-tuning price of LEPNuclear Physics B, 1999
- Naturalness implications of LEP resultsPhysics Letters B, 1999
- The fine-tuning price of LEPPhysics Letters B, 1998
- Upper bounds on supersymmetric particle massesNuclear Physics B, 1988
- Renormalization of Supersymmetry Breaking Parameters RevisitedProgress of Theoretical Physics, 1984
- Aspects of Grand Unified Models with Softly Broken SupersymmetryProgress of Theoretical Physics, 1983
- Aspects of Grand Unified Models with Softly Broken SupersymmetryProgress of Theoretical Physics, 1982
- Low Energy Parameters and Particle Masses in a Supersymmetric Grand Unified ModelProgress of Theoretical Physics, 1982
- SU(2)L × U(1) symmetry breaking as a radiative effect of supersymmetry breaking in GUTsPhysics Letters B, 1982