Characterization of Ferroelectric BaSrTiO_3 Thin Films Using a Flip-Chip Technique at Microwave Frequency Ranges
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概要
- 論文の詳細を見る
Microwave properties of ferroelectric Ba_<0.5>Sr_<0.5>TiO_3(BST)thin films were investigated utilizing a gold resonator combined with a planar flip-chip structure. The resonator was designed to have bias circuits at the zero field points in the microstrip line. The dielectric properties, capacitance(C)and dielectric loss(tanδ)of the BST film are characterized under the influence of an applied dc voltage, V_b, at room temperature. ne BST ferroelectric capacitor with a capacitance of about 0.6 p^F successfully controlled the tunability of the resonance frequency in the resonator with a factor of 〜2. In addition, dependence of the loss tangent and the capacitance on the electrode were determined for both of the SrRuO_3/BST/LaAlO_3(SRO/BST/LAO)and BST/LAO structures. The use of a SRO buffer layer in the multilayer provided a low loss tangent of about 3×10^<-3>at about 2 GHz and 80 V bias voltage. This low loss seems to be related to the reduction of defect density in the interfacial layer between the electrode and the ferroelectric thin film.
- 社団法人応用物理学会の論文
- 2000-05-15
著者
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Park Sang
Microelectrics Laboratory Material&device Sector Samsung Advanced Institute Of Technology
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Lee Eun
Microelectrics Laboratory Material&device Sector Samsung Advanced Institute Of Technology
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Kim Chae
Department Of Dermatology Asan Medical Center University Of Ulsan College Of Medicine
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Kim Chae
Department Of Physics Hanyang University
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Lee Eun
Micro Biochip Center Hanyang University
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SOK Junghyun
Microelectrics Laboratory, Material&Device Sector, Samsung Advanced Institute of Technology
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HONG Jin
Department of Physics, Hanyang University
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KWAK Jun
Department of Physics, Hanyang University
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Kwak Jun
Department Of Physics Hanyang University
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Sok Junghyun
Microelectrics Laboratory Material&device Sector Samsung Advanced Institute Of Technology
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Hong Jin
Department Of Physics Hanyang University
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HONG Jin
Department of Chemistry, Korea University
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PARK Sang
Micro Device Group, SAIT, Samsung Electronics
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