2022:
[47] 鈴木雅視,高野佑成,垣尾省司,
"分極反転ScAlN薄膜/高音速AlN,w-BN基板上を伝搬する高次モードRSAWの結合係数K2増大,"
超音波TECHNO, 2022/8月号.
[46] K. Matsuura, M. Suzuki, S. Kakio, M. Kodera, H. Funakubo,
"Deposition and Evaluation of Highly Crystallized Ta2O5 Piezoelectric Thin Film on Pt Crystal Film,"
2022 IEEE International Ultrasonics Symposium proceedings, 2022.
[45] Y. Fujii, M. Suzuki, S. Kakio,
"Analysis of Longitudinal Leaky SAWs on Bonded Structures Consisting of Similar and Dissimilar Materials,"
2022 IEEE International Ultrasonics Symposium proceedings, 2022.
[44] J. Sekimoto, M. Suzuki, S. Kakio,
"High-order mode bulk acoustic wave resonators based on polarity-inverted SiAlN/AlN multilayered films for high-frequency operation,"
Applied Physics Letters, 121, 2022.
[43] J. Jia, N. Iwata, M. Suzuki, T. Yanagitani,
"Enhanced Electromechanical Coupling in Yb-Substituted III–V Nitride Alloys,"
ACS Applied Electronic Materials, 4, p. 3448, 2022.
[42] K. Yoshizawa, M. Suzuki, S. Kakio, Y. Ito, Ak. Tateyama, T. Shiraishi, H. Funakubo, T. Wakabayashi, K. Shibata,
"Evaluation of bulk and surface acoustic waves propagation properties of (K, Na) NbO3 films deposited by hydrothermal synthesis or RF magnetron sputtering methods,"
Japanese Journal of Applied Physics, 61 p. SG1077, 2022.
[41] K. Matsuura, M. Suzuki, S. Kakio, M. Kodera, H. Funakubo,
"Deposition and evaluation of Ta2O5 piezoelectric thin film on Pt crystal film,"
Japanese Journal of Applied Physics, 61 p. SG1076, 2022.
[40] Y. Takano, M. Suzuki, S. Kakio,
"Enhancement of coupling factor in 0th to 4th mode Rayleigh surface acoustic waves on polarity inverted multilayered ScAlN film/AlN and BN substrates,"
Japanese Journal of Applied Physics, 61 p. SG1059, 2022.
[38] M. Suzuki, S. Kakio,
"Analysis of propagation characteristics of Rayleigh surface acoustic waves on Yb0. 33Al0. 67N piezoelectric films/high-velocity substrates,"
Japanese Journal of Applied Physics, 61 p. SG1014, 2022.
2021:
[37] Y. Koike, J. Jia, M. Suzuki, T. Yanagitani,
"Experimental and theoretical investigation of kt2 and velocity in YbGaN films by DFT,"
2021 IEEE International Ultrasonics Symposium proceedings, 2021.
[36] J. Sekimoto, M. Suzuki, S. Kakio,
"Polarity control of (0001) oriented AlN films by Si doping and applications to polarity inverted SiAlN/AlN film bulk acoustic wave resonators,"
2021 IEEE International Ultrasonics Symposium proceedings, 2021.
[35] K. Yoshizawa, M. Suzuki, S. Kakio, Y. Ito, A. Tateyama, H. Funakubo, T. Wakabayashi, K. Shibata,
"Evaluation of BAW and SAW Properties of (K, Na)NbO3 Thin Films Deposited by RF Sputtering,"
2021 IEEE International Ultrasonics Symposium proceedings, 2021.
[34] Y. Takano, M. Suzuki, S. Kakio,
"Analysis of higher-order mode SAW propagation characteristics on polarity inverted ScAlN films/high velocity III-V nitride substrate,"
2021 IEEE International Ultrasonics Symposium proceedings, 2021.
[33] 鈴木雅視、髙野佑成、垣尾省司,
"RFマグネトロンスパッタ法によるc軸配向CrAlN膜の形成と圧電特性評価,"
超音波TECHNO, 2021/8月号.
[32] T. Fujimaki, M. Suzuki, S. Kakio,
"Analysis of leaky surface acoustic waves on quartz thin plates bonded to similar-material substrate dissimilar-material structures,"
Japanese Journal of Applied Physics, 60 p. SDDC04, 2021.
[31] S. Asakawa, M. Suzuki, S. Kakio, A. Tezuka, J. Mizuno,
"Enhancement of leaky surface acoustic wave harmonics excitation using bonded dissimilar-material structures,"
Japanese Journal of Applied Physics, 60 p. SDDC07, 2021.
[30] Y. Takano, R. Hayakawa, M. Suzuki, S. Kakio,
"Increase of electromechanical coupling coefficient kt 2 in (0001)-oriented AlN films by chromium doping,"
Japanese Journal of Applied Physics, 60 p. SDDC08, 2021.
2020:
[29] T. Fujimaki, M. Suzuki, S. Kakio ,"Leaky SAW Propagation Properties on LiNbO3 Thin Plate Bonded to Similar-Material Substrate," 2020 IEEE International Ultrasonics Symposium, 2020.
[28] N. Iwata, S. Kinoshita, J. Jia, M. Suzuki, T. Yanagitani, "Experimental and theoretical investigation of kt2 and mechanical quality factor Qm in YbAlN films using DFT," 2020 IEEE International Ultrasonics Symposium, 2020.
[27] S. Asakawa, M. Suzuki, S. Kakio, A. Tezuka, J. Mizuno, "Resonance Properties of Leaky SAW Harmonics on Bonded Dissimilar-Material Structures,"2020 IEEE International Ultrasonics Symposium, 2020.
[26] M. Suzuki and
S.kakio,
“Analysis of leaky surface acoustic wave characteristic propagating on high
piezoelectric ScAlN film / high velocity
quartz substrate,” Japanese Journal of Applied Physics, 59 p. SKKC07, 2020.
[25] S. Asakawa, J. Hayashi, M. Suzuki, S. Kakio, A. Tezuka, H. Kuwae, H. Yokota, T. Yonai, K. Kishida, J. Mizuno, “Analysis of longitudinal leaky surface acoustic waves on LiNbO3/amorphous layer/quartz structure,” Japanese Journal of Applied Physics, 59 p. SKKC12, 2020.
[24] S. Kakio, Y. Kato, R. Suenaga, M. Suzuki, A. Tezuka, H. Kuwae, H. Yokota, T. Yonai, K. Kishida, and J. Mizuno, “Propagation properties of leaky surface acoustic wave on waterloaded LiTaO3/quartz bonded structure,” Japanese Journal of Applied Physics, accepted, 59 p. SKKC04, 2020.
[23] T. Fujimaki, M. Suzuki, and S. Kakio, “Analysis of leaky surface acoustic waves on LiNbO3 or LiTaO3 thin plate bonded to similar-material substrates,” Japanese Journal of Applied Physics, 59 p. SKKC01, 2020.
[22] 高野佑成,早川竜盛,鈴木雅視,垣尾省司,“クロム添加c軸配向AlN薄膜の圧電特性評価,” 弾性波素子 技術第150委員会第160回研究資料, p. 9, 2020年3月.
2019:
[21] M. Suzuki and S. Kakio, “Electromechanical Coupling Coefficient kt2 of Cr doped AlN Films Grown by Sputtering Deposition,” 2019 IEEE Ultrasonics Symp. Proceedings, 2019年10月.
[20] S. Asakawa, J. Hayashi, M. Suzuki, S. Kakio, A. Tezuka, H. Kuwae, H. Yokota, T. Yonai, K. Kishida, J. Mizuno, “Analysis of Longitudinal Leaky SAW on LiNbO3 Thin Plate/Amorphous Layer/Quartz Structure, “2019 IEEE Ultrasonics Symp. Proceedings 2019年10月.
[19] J. Hayashi, K. Yamaya, S. Asakawa, M. Suzuki, S. Kakio, A. Tezuka, H. Kuwae, H. Yokota, T. Yonai, K. Kishida, J. Mizuno, “Longitudinal leaky surface acoustic wave with low attenuation on LiTaO3 or LiNbO3 thin plate bonded to quartz substrate,” Japanese Journal of Applied Physics, 58, p. SGGC12, 2019年7月.
[18] K. Hakiri, M. Suzuki, and S. Kakio, “Acousto-optic modulators driven by longitudinal leaky surface acoustic waves on LiNbO3 thin-plate bonded structures,” Japanese Journal of Applied Physics, 58, p. SGGA09, 2019年7月.
[17] M. Suzuki, N. Sawada, and S. Kakio,“Analysis of longitudinal leaky surface acoustic wave propagation characteristics on a piezoelectric ScAlN layer/sapphire or quartz substrate,” Japanese Journal of Applied Physics, 58, p. SGGC08, 2019年7月.
[16] R. Suenaga, M. Suzuki, S. Kakio, Y. Ohashi, M. Arakawa, and J. Kushibiki, “Evaluation of SiO2 Thin films on piezoelectric substrates using line-focus-beam ultrasonic material characterization system,” Japanese Journal of Applied Physics, 58, p. SGGA05, 2019年7月.
2018:
[15] 鈴木雅視,早川竜盛,垣尾省司, “RFマグネトロンスパッタ法で形成したCr添加AlN膜の圧電特性,” 電気学 会研究会資料・電気回路研究会, ECT-18, p. 11, 2018年12月.
[14] 末永凌太,鈴木雅視,垣尾省司,大橋雄二,荒川元考,櫛引淳一,“圧電基板上に装荷したSiO2薄膜の直 線集束ビーム超音波材料解析システムによる評価,” 電気学会研究会資料・電気回路研究会, ECT-18, p. 21, 2018年12月.
[13] 浅川詩織,林純貴,鈴木雅視,垣尾省司,手塚彩水,桑江博之,米内敏文,岸田和人,水野潤, ”LiTaO3/ 水晶構造における縦型リーキーSAWの共振特性,” 電気学会研究会資料・電気回路研究会, ECT-18, p. 33, 2018年12月.
[12] 林純貴,浅川詩織,鈴木雅視,垣尾省司,手塚彩水,桑江博之,米内敏文,岸田和人,水野潤, ” LiTaO3/ 水晶構造上のリーキーSAW特性の解析―支持基板の物理定数依存性―,” 電気学会研究会資料・電気回路研 究会, ECT-18, p. 37, 2018年12月.
[11] 波切堅太郎,鈴木雅視,垣尾省司,“LiNbO3薄板接合構造上の縦型リーキー弾性表面波を用いた音響光学 変調素子,” 電気学会研究会資料・電気回路研究会, ECT-18, p. 53, 2018年12月.
[10] R. Suenaga, M. Suzuki, S. Kakio, Y. Ohashi, M. Arakawa, J. Kushibiki, “Evaluation of Piezoelectric Ta2O5 Thin Films Using Line-Focus-Beam Ultrasonic Material Characterization System,” 2018 IEEE Ultrasonics Symp. Proceedings, 2018年9月.
[9] H. Igeta, M. Totsuka, M. Suzuki, N. Hiroshiba, T. Yanagitani, ”Temperature characteristics of ScAlN/SiO2 BAW resonators,” 2018 IEEE Ultrasonics Symp. Proceedings, 2018年9月.
[8] J. Hayashi, K. Yamaya, S. Asakawa, M. Suzuki, S. Kakio, H. Kuwae, T. Yonai, K. Kishida, J. Mizuno, “Longitudinal Leaky Surface Acoustic Wave with Low Attenuation on LiTaO3 Thin Plate Bonded to Quartz Substrate,” 2018 IEEE Ultrasonics Symp. Proceedings , 2018年9月.
[7] K. Hakiri, M. Suzuki, S. Kakio., ”Acousto-Optic Modulators Driven by Longitudinal Leaky Surface Acoustic Waves on Bonded Structures,” 2018 IEEE Ultrasonics Symp. Proceedings , 2018年9月.
[6] M. Suzuki and S. Kakio, “Theoretical analysis and design of longitudinal leaky SAW device consisting of ScAlN film / piezoelectric single crystal,” 2018 IEEE Ultrasonics Symp. Proceedings , 2018年9月.
[5] M. Kawabe, S. Takayanagi, H. Ichihashi, M. Suzuki, T. Yanagitani and M. Matsukawa, “Rapid wave velocity measurement by Brillouin scattering using coherent phonons induced by ScAlN piezoelectric thin-film transducer,” IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 65, p. 1882, 2018年7月.
[4] J. Hayashi, K. Yamaya, M. Suzuki, S. Kakio, H. Suzaki, T. Yonai, K. Kishida and Jun Mizuno, “High coupling and highly stable leaky surface acoustic waves on LiTaO3 thin plate bonded to quartz substrate,” Japanese Journal of Applied Physics, 57, p. 07LD21, 2018年7月.
[3 R. Suenaga, M. Suzuki, S. Kakio, Y. Ohashi, M. Arakawa and J. Kushibiki, “Propagation properties of leaky surface acoustic wave on water-loaded piezoelectric substrate,” ,” Japanese Journal of Applied Physics, 57, p. 07LC10, 2018年7月.
[2] K. Hakiri, M. Suzuki and S. Kakio , “Acousto-optic Bragg diffraction using longitudinal leaky surface acoustic wave,” Japanese Journal of Applied Physics, 57, p. 07LD01, , 2018年7月.
[1] M.
Suzuki,
M.i
Gomi,
and S. Kakio,
“Propagation characteristics of longitudinal-type leaky surface acoustic wave
on layered structure consisting of ScxAl1-xN
film / LiNbO3 substrate,” Japanese Journal of Applied Physics, 57,
p.07LD06, 2018年7月.