Quenching Mechanism of Multibubble Sonoluminescence at Excessive Sound Pressure
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概要
- 論文の詳細を見る
- Publication Office, Japanese Journal of Applied Physics, Faculty of Science, University of Tokyoの論文
- 2001-05-01
著者
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Hatanaka Shin-ichi
Japan Science And Technology Corporation
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KOZUKA Teruyuki
National Industrial Research Institute of Nagoya, AIST, MITI
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TUZIUTI Toru
National Industrial Research Institute of Nagoya, AIST, MITI
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YASUI Kyuichi
National Institute of Advanced Industrial Science and Technology (AIST)
関連論文
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- Simultaneous Observation of Motion and Size of a Sonoluminescing Bubble (Short Note)
- Quenching Mechanism of Multibubble Sonoluminescence at Excessive Sound Pressure
- Observation of a Sonoluminescing Bubble Using a Stroboscope
- Measurement of Distribution of Acoustic Radiation Force Perpendicular to Sound Beam Axis
- Relationship between a Standing-Wave Field and a Sonoluminescing Field
- Influence of the Sound Field on the Intensity of Sonoluminescence
- Effects of Nonlinearity in Development of Acoustic Streaming
- Chemotaxonomic Studies of Asplenium sect.Hymenasplenium(Aspleniaceae)
- Difference in Threshold between Sono- and Sonochemical Luminescence
- Effect of Process Parameters on Ultrasonic Separation of Dispersed Particles in Liquid
- Manipulation of particles in a microchannel with various geometric spaces using ultrasound (Special issue: Ultrasonic electronics)
- Effect of Existence of Red Blood Cells in Trapping Performance of Microbubbles by Acoustic Radiation Force
- Effects of pH and Surfactant on the Ultrasound-Induced Chemiluminescence of Luminol
- Quenching Mechanism of Multibubble Sonoluminescence at Excessive Sound Pressure
- Acoustic Standing-Wave Field for Manipulation in Air
- Measurement and Numerical Calculation of Force on a Particle in a Strong Acoustic Field Required for Levitation
- Noncontact Acoustic Manipulation in Air
- Study of an Acoustic Field in a Microchannel
- S22. Numerical simulations of aggregation of sonochemically synthesized BaTiO_3 nanocrystals(Oral Presentation)
- S2-3 Relationship between the bubble temperature and main oxidant created inside an air bubble under ultrasound(Symposium (2) Cavitation, Sonoluminescence, and Bubble Dynamic)
- S5-1 Observations of native sonoluminescence structure with intensified CCD(Symposium (5) Industrial and Environmental Applications of Sonoprocessing)
- P-17 Correlation between Na^* emission and "chemically active" acoustic cavitation bubbles(Poster Presentations)
- Effects of pH and Surfactant on the Ultrasound-Induced Chemiluminescence of Luminol