It is pointed out that, owing to the similarity existing between electromagnetic interaction and the vector part of the weak interaction proposed by Feynman and Gell-mann, the contribution of the vector part of the weak interaction to μ- captu
It is pointed out that, owing to the similarity existing between electromagnetic interaction and the vector part of the weak interaction proposed by Feynman and Gell-mann, the contribution of the vector part of the weak interaction to μ- captu
This paper describes a detailed analysis of conversion properties of junction transistors. A new parameter 'the effective conversion transconductance' is introduced for characterizing transistor converters. The effective conversion transcon-ductance of tr
This paper describes a detailed analysis of conversion properties of junction transistors. A new parameter 'the effective conversion transconductance' is introduced for characterizing transistor converters. The effective conversion transcon-ductance of tr
The paraxial-ray equation for describing the electron trajectories in a periodic magnetic field has been solved by a perturbation method. Space charge effect is included. The cathode may bs partially shielded. By this method, it is possible to obtain high
The paraxial-ray equation for describing the electron trajectories in a periodic magnetic field has been solved by a perturbation method. Space charge effect is included. The cathode may bs partially shielded. By this method, it is possible to obtain high
This paper deals primarily with the vibrational bands of crystalline water molecules in Rochelle Salt. The four bands observed in the region 3200-3600 cm-1 are attributed respectively to the four nonequivalent water molecules contained in the R
This paper deals primarily with the vibrational bands of crystalline water molecules in Rochelle Salt. The four bands observed in the region 3200-3600 cm-1 are attributed respectively to the four nonequivalent water molecules contained in the R
A detailed estimation of the nuclear moment of inertia and the collective gR factor based on the cranking model of Inglis and Nilsson's wave function is made. The agreement with experimental value is satisfying not only in regard to magnitude b
A detailed estimation of the nuclear moment of inertia and the collective gR factor based on the cranking model of Inglis and Nilsson's wave function is made. The agreement with experimental value is satisfying not only in regard to magnitude b