Papers - AOYAGI MANABU

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  1. Investigation of enhancement effect of underwater acoustic streaming by cavity structure located away from vibration source using simulation and experiment considering cavitation

    Yimeng Wang, Manabu Aoyagi,Acoustical Science and Technology,vol.47,(2),(p.152 ~ 162),2026.03

  2. Generation of breathing-like acoustic streaming jet in air by small through hole in object placed near sound source

    Kohei Aono, Hiroki Matsumoto, Hidekazu Kajiwara, Manabu Aoyagi,Acoustical Science and Technology,vol.47,(2),(p.142 ~ 151),2026.03

  3. Resonant excitation of a thin waveguide with an elliptical reflector for high-power ultrasound (ELIPS)

    Shoki Ieiri, Wang Yimeng, Kyohei Yamada, Shinsuke Itoh, Takashi Kasashima, Manabu Aoyagi, Chikahiro Imashiro, and Takeshi Morita,Applied Physics Letters,vol.126,(26),2025.07

  4. Analysis of levitation force acting on cylinder with hole placed between vibrating surface and plane

    Yuta Fujioka, Yimeng Wang, Hideki Tamura, and Manabu Aoyagi,Japanese Journal of Applied Physics,vol.64,(5),(p.05SP06-1 ~ 05SP06-9),Article Number:05SP06,2025.05

  5. Swimmer with submerged SiO2/Al/LiNbO3 surface acoustic wave propulsion system

    Deqing Kong, Ryo Tanimura, Fang Wang, Kailiang Zhang, Minoru Kuribayashi Kurosawa, Manabu Aoyagi,Biomimetic Intelligence and Robotics,vol.4,(2),(p.1 ~ 7),Article Number:100159,2024.06

  6. Modeling and experimental evaluation of the stepping characteristic on a walking-type piezoelectric actuator

    Hao Yun, Lusheng Yuan, Shaoliang Wei, and Manabu Aoyagi,Smart Materials and Structures,vol.33,(5),(p.1 ~ 13),Article Number:055054,2024.04

  7. A miniature swimmer actuated by the PZT ring ultrasonic underwater propulsion system

    Yuan Qian, Deqing Kong, Nagasaki Daiki, Manabu Aoyagi and Minoru Kuribayashi Kurosawa,Japanese Journal of Applied Physics,vol.63,(4),(p.04SP48-1 ~ 04SP48-8),Article Number:04SP48,2024.04

  8. Performance evaluation of a walking-type piezoelectric actuator with compliant mechanism for wide-range speed driving and high-precision positioning

    Hao Yun, Manabu Aoyagi,Precision Engineering,vol.85,(p.113 ~ 125),2024.01

  9. Acoustic underwater propulsion system based on ultrasonic disc PZT transducer

    Deqing Kong, Takumi Hirata, Yimeng Wang, Fei Li, Minoru Kuribayashi Kurosawa, Manabu Aoyagi,Sensors and Actuators A:Physical,vol.359,(p.1 ~ 8),Article Number:114502,2023.09

  10. Investigation of the non-contact flip motion of a planar levitated object using the acoustic jumping phenomenon

    Kohei Aono, Deqing Kong, Manabu Aoyagi,Sensors and Actuators A:Physical,(356),(p.1 ~ 8),Article Number:114361,2023.06

  11. Hollow cylindrical linear stator vibrator using a traveling wave of longitudinal axisymmetric vibration mode

    Kaito Murai, Deqing Kong, Hideki Tamura, Manabu Aoyagi,Ultrasonics,vol.129,(p.1 ~ 11),Article Number:106910,2023.03

  12. Measurement of vibration transmitted through welded object and welding strength in ultrasonic welding

    Kohei Yabe, Akitoshi Kasai, Masaru Miyata, Taro Kawano, and Manabu Aoyagi,Japanese Journal of Applied Physics,vol.62,(p.SJ1025-1 ~ SJ1025-5),Article Number:SJ1025,2023.03

  13. Development of a multi-drive-mode piezoelectric linear actuator with parallel-arrangement dual stator

    Hao Yun, Deqing Kong, Manabu Aoyagi,Precision Engineering,vol.77,(p.127 ~ 140),2022.09

  14. Examination of hemispherical shell stator for lightweight spherical ultrasonic motor

    Goda Kento, Kajiwara Hidekazu, and Aoyagi Manabu,International Journal of Automation Technology,vol.16,(4),(p.478 ~ 487),2022.07

  15. Multi-degrees-of-freedom swimmer using ultrasonic longitudinal transducer

    Ryo Tanimura, Deqing KONG, Manabu AOYAGI,Japanese Journal of Applied Physics,vol.61,(p.1 ~ 5),Article Number:SG1038,2022.05

  16. Control of swing-up and giant-swing motions of Acrobot based on periodic input

    Yuki Nishiki, Hidekazu Kajiwara, Manabu Aoyagi,Nonlinear Dynamics,vol.108,(p.2297 ~ 2308),2022.05

  17. Measurement of Holding Force and Transportation Force Acting on Tabular Object in Near-Field Acoustic Levitation

    Kohei Aono and Manabu Aoyagi,IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control,vol.69,(4),(p.1508 ~ 1514),2022.04

  18. Rapid rise of planar object by near-field acoustic levitation on recessed acoustic radiation surface

    Kohei Aono, Manabu Aoyagi,Ultrasonics,vol.119,(p.1 ~ 7),Article Number:106596,2022.02

  19. Study on Multidegree-of-Freedom Ultrasonic Motor Using Vibration Mode Rotation of Metal Spherical Stator

    Ai Mizuno, Hidekazu Kajiwara, Hideki Tamura and Manabu Aoyagi,Actuators,vol.11,(1),Article Number:27,2022.01

  20. Characteristics of thickness-vibration-mode PZT transducer for acoustic micropumps

    Hao Yun, Deqing Kong, Manabu Aoyagi,SENSORS AND ACTUATORS A-PHYSICAL,vol.332,(2),Article Number:113206,2021.12

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