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Power deposition of H minority heating with a new compact ICRF antenna in KSTAR
Lee H. Y.,Kang J. S.,Wi H. H.,Wang S. J.,Kwak J. G.,Saito K. 한국물리학회 2021 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.78 No.11
The new compact ICRH antenna (CIA) with low electric field and conjugate-T has been installed in KSTAR. It is essential for studying the effect on the KSTAR plasma of H minority heating as a main ICRH scheme. The TRANSP-TORIC code has been adopted for analyzing the ICRH effect. The calculation using TRANSP-TORIC has been conducted with an additional 1 MW of ICRH power to the KSTAR operation at B0 = 2.0 T. About 75% of the ICRH power has coupled to the H minority heating, and most of the power of H minority heating has contributed to the energy of D majority ions and electrons. The deposited profile of the minority heating power varies with the concentration rate of the H minority ions and shows the possibility of producing energetic particles which appears to the increasing energy of D majority ions. The power of the H minority heating has good coupling to the majority ions in the broad range of 5 < n// < 35, including n// of the newly installed CIA in KSTAR.
The Effects of Properties of the Radicals in Radical Migration Phenomena
( H. Saito ),( G. B. Flores D`Arcais ),( M. Kawakami ),( H. Masuda ) 서울대학교 인지과학연구소 2010 Journal of Cognitive Science Vol.11 No.1
Illusory conjunctions of letters have been observed with words presented in alphabetic writing systems. The work here reported investigates a related phenomenon, radical blending, that may occur during the processing of kanji, the Japanese logographic script. In this work, we presented participants with two briefly exposed source characters (e.g., 複 浴), each of which contained two components or radicals. These characters were subsequently masked, and then followed by a probe character (e.g., 裕) that, under critical conditions, shared one or two radicals with the source characters. Participants were asked to decide as quickly as possible if the probe was one of the two source characters. We found that the probability of participants to erroneously report that they had seen the probe in the source pair (i.e., produce a false positive response) was related primarily to some consistency between the source and the probe characters. This included the position of the same radicals in the source and in the probe characters (local consistency) and the left or right position of the characters in the source display (global consistency). Homophony between source characters and the probe character also played some roles. The results suggest that, in processing kanji characters, readers are sensitive to statistical properties of radicals, such as the number of radicals taking left or right position, and the number of their pronunciations.
Measurement of theB¯→Xsγbranching fraction with a sum of exclusive decays
Saito, T.,Ishikawa, A.,Yamamoto, H.,Abdesselam, A.,Adachi, I.,Aihara, H.,Al Said, S.,Arinstein, K.,Asner, D. M.,Aushev, T.,Ayad, R.,Bakich, A. M.,Bansal, V.,Bhuyan, B.,Bobrov, A.,Bondar, A.,Bonvicini, American Physical Society 2015 PHYSICAL REVIEW D - Vol.91 No.5
류성훈(S.H. Ryu),이인철(I.C. Lee),김경회(K.H. Kim),日比野忠史(T. HIBINO),斉藤直(T. SAITO) 대한조선학회 2011 대한조선학회 학술대회자료집 Vol.2011 No.6
폐쇄성 해역의 유기오염저질을 개선하기위하여 석탄회 조립물을 환경복원재료로 이용하는 기술이 실용화되고 있다. 본 논문에서는 석탄회 조립물의 유기오염저질의 복원기능을 파악하는데 목표를 둔다. 석탄회 조립물의 저질개선 기능은 다음과 같이 요약할 수 있다. (1) 황화수소의 흡착 및 발생억제, (2) 인의 흡착 및 용출억제, (3) 유기물의 분해, (4) 석탄회 조립물층 내부의 유동성 유지, (5) 지반개량재료로서의 효과, (6) 해조류의 부착촉진. 이상의 결과로부터 석탄회 조립물은 유기오염저질을 개선하여 폐쇄성 해역의 부영양화 및 빈산소화 등을 억제하는 환경복원 효과가 있는 것을 알 수 있으며, 금후 환경복원기술로서 사용이 기대된다. Use of granulated coal ash has been utilized as materials for environmental remediation in enclosed bay. The present study is aimed to evaluate ability of granulated coal ash on the remediation of organic enriched sediment. The abilities of granulated coal ash on the remediation of organic enriched sediment were summarized as follows. (1) adsorption of hydrogen sulfide and suppression of its production, (2) adsorption of phosphorus and suppression of its release, (3) degradability of organic matter, (4) fluidity in the granulated coal ash layer, (5) improvement of cohesive sediments and (6) enhance of marine plants adhesion. It was proven that granulated coal ash can effectively remediate organically enriched sediments, and as a results, it can be a adequate method for environmental improvement by suppression of occurrence of eutrophicated and hypoxic water.