Chapitre 1 : Etat de l’art des céramiques <strong>ferroélectriques</strong> et de leurs composites <strong>pour</strong> applications microondes [55] Rui-Hong Liang, Xian-Lin Dong, Ying Chen, Fei Cao & Yong-Ling Wang, “Improvement of Microwave Loss Tangent and Tunability of Ba0.55Sr0.45TiO3/MgO <strong>Composites</strong> Using the Heterogeneous Precipitation Method”, J. Am. Ceram. Soc., 89 [10] 3273–3276 (2006) [56] Chunxia Yang, Hongqing Zhou, Min Liu & Tai Qiu, “Effect of MnCO3 doping on the dielectric and tunable properties of BSTO/MgO composite for phased array antennas”, J Mater Sci: Mater Electron (2007) 18:985–989 [57] Rui-Hong Liang, Xian-Lin Dong, Ying Chen, Fei Cao & Yong-Ling Wang, “Effect of ZrO2 doping on the tunable and dielectric properties of Ba0.55Sr0.45TiO3/MgO composites for microwave tunable application”, Materials Research Bulletin 41 (2006) 1295–1302 [58] Jiandong Cui, Guixia Dong, Zhimin Yang & Jun Du, “Low dielectric loss and enhanced tunable properties of Mn-doped BST/MgO composites”, Journal of Alloys and Compounds (2009) [59] Shuwang Ma, Guixia Dong, Zhimin Yang & Jun Du, “Dielectric property of Ba0.6Sr0.4TiO3–Mg0.9Zn0.1O ceramic with additives of Sm2O3 and Ta2O5”, J Mater Sci: Mater Electron (2009) 20:1106–1111 [60] E.A. Nenasheva, A.D. Kanareykin, N.F. Kartenko, A.I. Dedyk & S.F. Karmanenko, “Ceramics Materials Based on (Ba,Sr)TiO3 Solid Solutions for Tunable Microwave Devices”, Journal of Electroceramics, 13, 235–238, 2004 [61] E.A. Nenasheva, N.F. Kartenko, I.M. Gaidamaka, O.N. Trubitsyna, S.S. Redozubov, A.I. Dedyke & A.D. Kanareykin, “Low loss microwave ferroelectric ceramics for high power tunable devices”, Journal of the European Ceramic Society 30 (2010) 395–400 [62] Jiandong Cui, Guixia Dong, Yi Wang & Jun Du, “Microstructure and dielectric properties of BST/MZO ceramic composites for tunable microwave applications”, J Mater Sci: Mater Electron (2009) 20:473–478 [63] Chunxia Yang, Hongqing Zhou, Min Liu & Hongzhong Wu, “Dielectric properties of BSTO/MgO ceramic composites”, J Mater Sci: Mater Electron (2006) 17:347–352 [64] SiweiWang, Jiwei Zhai, Xiujian Chou, Lingling Zhang & Xi Yao, “Dielectric tunable properties of Ba0.6Sr0.4TiO3–BaZn6Ti6O19 microwave composite ceramics”, Materials Chemistry and Physics 115 (2009) 200–203 [65] Xiaohong Wang, Wenzhong Lu, Jian Liu, Yanling Zhou & Dongxiang Zhou, “Effects of La2O3 additions on properties of Ba0.6Sr0.4TiO3–MgO ceramics for phase shifter applications”, Journal of the European Ceramic Society 26 (2006) 1981–1985 [66] Wontae Chang & Louise Sengupta, “MgO-mixed Ba0.6Sr0.4TiO3 bulk ceramics and thin films for tunable microwave applications”, Journal of Applied Physics, vol. 92, n° 7, 1 octobre 2002 [67] ZHANG JingJi, ZHAI JiWei, JIANG HaiTao & YAO Xi, “Dielectric tunable properties of BaTi4O9-doped Ba0.6Sr0.4TiO3 microwave composite ceramics”, Science in China Series E: Technological Sciences [68] Keisuke Kageyama & Junichi Takahashi, “Tunable Microwave Properties of Barium Titanate-Based Ferroelectric Glass-Ceramics”, J. Am. Ceram. Soc., 87 [8] 1602–1605 (2004) 34
Chapitre 1 : Etat de l’art des céramiques <strong>ferroélectriques</strong> et de leurs composites <strong>pour</strong> applications microondes [69] Antonio Feteira, Derek C. Sinclair, Ian M. Reaney, Yoshitaka Somiya & Michael T. Lanagan, “BaTiO3-Based Ceramics for Tunable Microwave Applications”, J. Am. Ceram. Soc., 87 [6] 1082–1087 (2004) [70] Jingji Zhang, Jiwei Zhai & Xi Yao, “Dielectric tunable properties of low-loss Ba0.4Sr0.6Ti1-yMnyO3 ceramics”, Scripta Materialia 61 (2009) 764–767 [71] Sandrine Nénez, “Céramiques <strong>diélectriques</strong> <strong>commandables</strong> <strong>pour</strong> applications micro-ondes : composites à base de titanate de baryum-strontium et d’un oxyde non ferroélectrique“, Thèse de Doctorat de l’Université de Bourgogne Mention Sciences, Spécialité Chimie-Physique 35