Full next-to-leading-order calculations of Higgs boson decay rates in models with non-minimal scalar sectors

We present a complete set of decay rates of the Higgs boson with the mass of 125 GeV at the full next-to-leading order in a variety of extended Higgs models; i.e., a model with an additional real singlet scalar field, four types of two Higgs doublet models and the inert doublet model. All the one-loop contributions due to QCD and electroweak interactions as well as scalar interactions are taken into account, and the calculations are systematically performed. Branching ratios for all the decay modes are evaluated in these models, and patterns of deviations in each decay mode from the standard model predictions are comprehensively analyzed. We show how these models with extended Higgs sectors can be distinguished by using our calculation of the branching ratios and future precision measurements of the Higgs boson decays

Numerical prediction for many floating debris transported in city model due to tsunami-induced flows

A three-dimensional computational method based on multiphase modelling is employed to predict the behaviors of floating tsunami debris in coastal residential areas. The present computational method enables us to deal with the interactions between free-surface flows and the movements of floating objects, as well as the collisions among the objects and fixed structures. The present method was first applied to simple stability problems of floating cylinders and then it was applied to the 1/250 scale tsunami experiments. Finally, two types of numerical experiments were performed using larger number of floating objects in more compli- cated conditions. As a result, it was shown that the present method is effective to predict the behaviors of floating objects transported by tsunami between buildings on non-uniform grand surfaces

Measurements of the charge-to-mass ratio of particles trapped by the Paul Trap for education

Paul traps are devices that confine particles using an oscillating electric field and have been used in undergraduate experimental classes at universities. Owing to the requirement of a high voltage of several thousand volts, no cases of use in middle and high schools are available. Therefore, we developed an all-in-one-type Paul trap device that included a high-voltage transformer. The Paul trap can be equipped with three different types of electrode attachments, ring-type, and linear-type , and the trap image can be observed using a built-in web camera. For example, the charge-to-mass ratio of particles was measured with different types of attachments, and it was shown that reasonable values could be obtained. This type of trap is currently used at several educational facilities in Japan.Comment: 6 pages, 12 figure

Indium coverage of the Si(111)- 7×3 -in surface

The indium coverage of the Si(111)-√7 × √3-In surface is investigated by means of x-ray photoelectron spectroscopy and first-principles density functional theory calculations. Both experimental and theoretical results indicate that the In coverage is a double layer rather than a single layer. Moreover, the atomic structure of the Si(111)-√7 × √3-In surface is discussed by comparing experimental with simulated scanning tunneling microscopy (STM) images and scanning tunneling spectra with the calculated density of states. Our structural assignment agrees with previous studies, except for the interpretation of experimental STM images