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Faculty of Science and Technology, Meijo University, JAPAN | 論文
- 24-P-21 Use of LiF to Achieve a Low-Temperature Co-Fired Ceramics (LTCC) with Low Dielectric Loss
- 24-P-06 Phase Transition and Microwave Dielectric Properties of Nd_2Ba(Cu_Zn_x)O_5 (x=0 to 0.55) by Zn Substitution for Cu
- Low-Temperature Sintering and Microstructure of Mg_4(Nb_V_x)0_9Microwave Dielectrc Ceramic by V Substitution for Nb
- Microwave Dielectric Characteristics of Y_2BaZnO_5 Ceramics with Sm Substitution for Y
- Influence of M (M = Zn and Ni) Substitution for Cu on Microwave Dielectric Characteristics of Yb_2Ba(Cu_M_x)O_5 Solid Solutions
- Microwave Dielectric Properties and Crystal Structure of Y_2(Ba_Sr_x)(Cu_Zn_y)O_5 Solid Solutions Synthesized by a Solid-State Reaction Method
- Microwave Dielectric Properties of Sm_2Ba(Cu_Zn_x)O_5(x = 0 to 1) Solid Solutions
- Microwave Dielectric Properties of Y_2Ba(Cu_Zn_x)O_5 Solid Solutions
- Microwave Dielectric Properties of Perovskite-Like Structured Ba8Ta6(Ni1-xMx)O24 ($\textit{M}=\text{Co}$, Cu, and Zn) Solid Solutions
- Crystal Structure and Microwave Dielectric Properties of Aeschynite-Type $R$(W0.5Ti1.5)O6 ($R = \text{Nd}$, Sm, Eu, Gd and Dy) Ceramics
- Low-Temperature Sintering and Microstructure of Mg4(Nb2-xVx)O9 Microwave Dielectric Ceramic by V Substitution for Nb