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특집논문 : 다문화사회의 종교를 묻는다 ; 다문화사회의 도전에 직면한 한국 가톨릭교회의 진로
박문수 ( Moon Su Park ) 한국종교문화연구소 2011 종교문화비평 Vol.19 No.19
This thesis aims at dealing with the Catholic Church`s response against multicultural situation which has been developing in Korean Society. To achieve this goal I will analyze the discourses of multicultural society, characteristics of challenges which have been raised during the course of multicultural society, and the Catholic Church`s face course against these challenges. This thesis is divided into the five parts roughly. In the first part, I will make a general survey of assimilating characteristics and methods which discourses of multicultural society have. In the second part, I will survey the history of Catholic church`s theoretical and practical approaches to multicultural society through migrant problems. In particular I will introduce the content of ``PONTIFICAL COUNCIL FOR THE PASTORAL CARE OF MIGRANTS AND ITINERANT PEOPLE`` at length. In the third part, I will survey the history of Catholic Church`s approaches to the multicultural society through the pastoral care of migrants. In the fourth part, I will make a general survey of current issues which is raised by multicultural society through the view of in and out. And finally, I will suggest the six directions which Catholic church will cope with about these issues.
열분해법을 이용한 FePt 나노입자의 합성과 자기 특성
박문수 ( Moon Su Park ),박상준 ( Sang Jun Park ),안종견 ( Jong Gyeon Ahn ),전지훈 ( Ji Hoon Jeon ),오영우 ( Young Woo Oh ) 경남대학교 신소재연구소 2010 신소재연구 Vol.22 No.-
고밀도·고성능 차세대 정보 저장 및 기록 매체의 요구에 대한 대안으로 나노자성재료의 응용이 주목을 받게 되었다. 크기가 작은 나노자성입자들은 자기기록매체의 기본 구조 물질이다. 그 중 초고밀도 기록매체로 주목을 받고 있는 FePt 합금은 자성재료 중 높은 자기이방성과 화학안정성을 갖고 있는 중요한 재료로 주목을 받고 있다. 본 연구에서는 나노크기 FePt 입자를 합성하는 여러 가지 방법들 중에서 Fe(Co)5를 사용하여 합성을 한 사례가 다수 보고되어 있지만 독성을 가지고 있기 때문에, 대신 Fe(acetylacetonate)3를 사용하여 열분해법으로 나노크기의 FePt 입자를 합성하고 그 특성을 조사하였다. Nano-magnetic materials have been focussed as an alternative to the application of high density, high performance needs for next generation information storage and recording media. Nano-magnetic materials are the basic materials for magnetic storage media. Among these, FePt is one of the important magnetic materials in focus because of its higher magnetic anisotropy and chemical stability. In this research, we used Fe(acetylacetonate)3 precursor unlike commonly used Fe(CO)5, to synthesize the FePt nanoparticles by thermal decomposition method. The magentic properties of FePt nanoparticles were then investigated.