Effect of Acoustic Cavitation on Dissolved Gases and Their Characterization During Megasonic Cleaning

机译：超声清洗过程中空化对溶解气体的影响及其表征

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In this study, both cleaning performance and pattern damage events were evaluated for specific gases (H_2, N_2, O_2 and Ar) dissolved deionized water (g-DIW) with megasonic (MS). The particle removal ability of all g-DIW with MS was gradually increased with their gasification level risen up. The evaluation of pattern damage was performed on PR line pattern that line width is 300 nm. Results showed a similar trend just like the PRE test. Especially H_2 dissolved DI water (H2-DIW) showed the most effective particle removal efficiency (PRE), but it generated lots of damage events than others. In order to clarify the differences of MS cleaning performance as functions of gas types and concentration in g-DIW, the mechanism of bubble nucleation, growth and cavitation effect were theoretically studied with physical properties of dissolved gas under acoustic field. From this result, their relationship with MS could be demonstrated.

机译：在这项研究中，用超音速（MS）对特定气体（H_2，N_2，O_2和Ar）溶解的去离子水（g-DIW）的清洁性能和图案损坏事件进行了评估。随着MS气化水平的提高，所有带有MS的g-DIW的颗粒去除能力逐渐提高。对线宽为300nm的PR线图案进行图案损伤的评价。结果显示出与PRE测试类似的趋势。尤其是溶解有H_2的去离子水（H2-DIW）表现出最有效的颗粒去除效率（PRE），但它产生的破坏事件比其他的要多。为了弄清质谱清洗性能随气体类型和浓度在g-DIW中的差异，从溶化气体在声场下的物理特性出发，从理论上研究了气泡成核，生长和空化作用的机理。从这个结果可以证明他们与MS的关系。

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《Semiconductor cleaning science and technology 12 (SCST 12)》|2011年|p.101-107|共7页
会议地点 Boston MA(US);Boston MA(US)
作者
Bong-Kyun Kang; Min-Su Kim; Seung-Ho Lee; Hong-Seong Sohn; and Jin-Goo Park;
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Department of Bionano Technology and Materials Engineering, Hanyang University, Ansan 426-791, Korea;

Department of Bionano Technology and Materials Engineering, Hanyang University, Ansan 426-791, Korea;

Department of Bionano Technology and Materials Engineering, Hanyang University, Ansan 426-791, Korea;

Akrion Systems LLC, 6330 Hedgewood Drive, Suite 150 Allentown, PA 18106 USA;

Department of Bionano Technology and Materials Engineering, Hanyang University, Ansan 426-791, Korea;

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机译：水中溶解的气体对0.83 MHz兆音速中声空化和气泡生长速率的影响
2. Megasonic Cleaning Of Wafers In Electrolyte Solutions: Possible Role Of Electro-acoustic And Cavitation Effects [J] . M. Keswani, S. Raghavan, P. Deymier, Microelectronic Engineering . 2009,第2期

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3. A novel way of detecting transient cavitation near a solid surface during megasonic cleaning using electrochemical impedance spectroscopy [J] . M. Keswani, S. Raghavan, P. Deymier Microelectronic Engineering . 2013,第auga期

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4. Effect of Acoustic Cavitation on Dissolved Gases and Their Characterization During Megasonic Cleaning [C] . Bong-Kyun Kang, Min-Su Kim, Seung-Ho Lee, International Symposium on Semiconductor Cleaning Science and Technology . 2011

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5. Control of cavitation using dissolved carbon dioxide for damage-free megasonic cleaning of wafers . [D] . Kumari, Sangita. 2011

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6. Sampling of basement fluids via Circulation Obviation Retrofit Kits (CORKs) for dissolved gases fluid fixation at the seafloor and the characterization of organic carbon [O] . Huei-Ting Lin, Chih-Chiang Hsieh, Daniel J. Repeta, 2020

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7. CONTROL OF CAVITATION USING DISSOLVED CARBON DIOXIDE FOR DAMAGE-FREE MEGASONIC CLEANING OF WAFERS [O] . Kumari Sangita 2011

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8. Effect of Dissolved Gases on Cavitation in Liquids [R] . Plesset, M. S. 1970

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Effect of Acoustic Cavitation on Dissolved Gases and Their Characterization During Megasonic Cleaning

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