In this paper, the dielectric properties of silicon nitride are studied using the dielectric polarization theories. According to the developed dielectric models, the temperature dependence of dielectric constant and l...In this paper, the dielectric properties of silicon nitride are studied using the dielectric polarization theories. According to the developed dielectric models, the temperature dependence of dielectric constant and loss of silicon nitride is mainly analyzed. In addition, the impact of Li^+, K^+, Ca^2+, Al^3+ and Mg^2+ doping on the dielectric properties of silicon nitride are also estimated.展开更多
The dielectric properties of silica at temperature from 300 to 1600 K and at microwave frequency band are investigated.By use of material studio software,the lattice constant,band energy gap and optical permittivity o...The dielectric properties of silica at temperature from 300 to 1600 K and at microwave frequency band are investigated.By use of material studio software,the lattice constant,band energy gap and optical permittivity of silica are calculated,and to be used as the key parameters to investigate the microwave dielectric properties of silica.It is found that its permittivity and loss are increased with increasing temperature.In addition,the ionic conduction loss caused by the defects in silica is very small from the calculation and the value is about 10-5 level at 2 000 K.The application of this analysis allows to estimate the permittivity and dielectric loss of silica both at high temperature and microwave band,which is currently still difficult to be measured directly.展开更多
文摘In this paper, the dielectric properties of silicon nitride are studied using the dielectric polarization theories. According to the developed dielectric models, the temperature dependence of dielectric constant and loss of silicon nitride is mainly analyzed. In addition, the impact of Li^+, K^+, Ca^2+, Al^3+ and Mg^2+ doping on the dielectric properties of silicon nitride are also estimated.
基金the National Natural Science Foundation of China(No.50902017)
文摘The dielectric properties of silica at temperature from 300 to 1600 K and at microwave frequency band are investigated.By use of material studio software,the lattice constant,band energy gap and optical permittivity of silica are calculated,and to be used as the key parameters to investigate the microwave dielectric properties of silica.It is found that its permittivity and loss are increased with increasing temperature.In addition,the ionic conduction loss caused by the defects in silica is very small from the calculation and the value is about 10-5 level at 2 000 K.The application of this analysis allows to estimate the permittivity and dielectric loss of silica both at high temperature and microwave band,which is currently still difficult to be measured directly.
