Search results

A Three-Dimensional Model for Quark and Gluon Jets

How to Find the Gluon Jets in e+ e- Annihilation

ON HIGH-ENERGY LEPTOPRODUCTION

A Model for Baryon Production in Quark and Gluon Jets

High-statistics beta-decay measurements at TRIUMF-ISAC and the transition from the 8pi Spectrometer to GRIFFIN

Over a 12 year period, the 8π γ-ray spectrometer at the TRIUMF-ISAC facility was a world unique device for β-decay studies. Equipped with a variety of auxiliary devices, it was used in studies of Fermi superallowed β+ emitters, and nuclear structure studies far from stability and those employing high-statistics measurements. In the present contribution, this latter use is highlighted with examples

On Soft Gluon Emission and the Transverse Momentum Properties of Final State Particles

Baryon Production in Lepton - Nucleon Scattering and Diquark Fragmentation

Transverse Momentum Effects and Angular Energy Flow in Leptoproduction

The Lund Monte Carlo for Jet Fragmentation

The Lund Monte Carlo for e+ e- Jet Physics

Parton Fragmentation and String Dynamics

Baryon Production in Jet Fragmentation and $ Decay

The Lund Monte Carlo for Jet Fragmentation and e+ e- Physics: Jetset Version 6.2

The Effect of Fragmentation Models on the Determination of $ s$ From Hadron Collider Data

Initial State Radiation Effects on $W$ and Jet Production

Coherent Parton Showers Versus Matrix Elements: Implications of PETRA - PEP Data

The Lund Monte Carlo for Jet Fragmentation and e+ e- Physics. Jetset Version 6.3: An Update

SPectrometer for Internal Conversion Electrons (SPICE) at TRIUMF-ISAC

Advances at TRIUMF-ISAC and decay of neutron-rich Cd studied with GRIFFIN

Constraining general two Higgs doublet models by the evolution of Yukawa couplings

We analyse the constraints of the general two Higgs doublet models by evolving the Yukawa coupling constants to high energy under renormalization group. We consider the appearance of a Landau pole or large off-diagonal Yukawa couplings which cause tree level flavour changing neutral currents. Our study shows the latter condition can be used to answer how much Z 2 symmetry breaking can be allowed