SCALAR DARK MATTER EFFECTS IN HIGGS AND TOP QUARK DECAYS
- 14 September 2007
- journal article
- research article
- Published by World Scientific Pub Co Pte Ltd in Modern Physics Letters A
- Vol. 22 (25n28) , 2121-2129
- https://doi.org/10.1142/s0217732307025376
Abstract
We study possible observational effects of scalar dark matter, the darkon D, in Higgs h and top quark t decay processes, h → DD and t → cDD in the minimal Standard Model (SM) and its two Higgs doublet model (THDM) extension supplemented with a SM singlet darkon scalar field D. We find that the darkon D can have a mass in the range of sub-GeV to several tens of GeV, interesting for LHC and ILC colliders, to produce the required dark matter relic density. In the SM with a darkon, t → cDD only occurs at loop level giving a very small rate, while the rate for Higgs decay h → DD can be large. In THDM III with a darkon, where tree level flavor changing neutral current (FCNC) interaction exists, a sizable rate for t → cDD is also possible.Keywords
All Related Versions
This publication has 7 references indexed in Scilit:
- Rare decay of the top quarkt→cll¯and single top quark production at the ILCPhysical Review D, 2006
- The Minimal Model of nonbaryonic dark matter: a singlet scalarNuclear Physics B, 2001
- Collisional dark matter and scalar phantomsPhysics Letters B, 2001
- Gauge singlet scalars as cold dark matterPhysical Review D, 1994
- Flavor-changing Higgs-boson transitionsPhysical Review D, 1990
- Mass-matrix ansatz and flavor nonconservation in models with multiple Higgs doubletsPhysical Review D, 1987
- Scalar PhantomsPhysics Letters B, 1985