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류종호(Jong Ho Ryu),염흥열(Heung Youl Youm) 한국정보보호학회 2004 정보보호학회논문지 Vol.14 No.5
본 논문은 신뢰할 수 없는 네트워크를 통해서도 사용자를 인증하고 안전한 암호통신용 세션키 교환에 적합한 패스워드 기반 인증 프로토콜을 제안한다. 기본 아이디어는 패스워드를 분할한 후 각 분할된 패스워드 지식들을 확대(amplification)하는 구조로 설계하는 것으로서, 이는 패스워드 검증정보의 램덤성(randomness)을 증가시키기 위한 것이다. 또한 서버 검증자 파일을 암호화하여 보관함으로서 서버 파일 타협에 의한 오프라인 사전추측 공격에 강인하도록 구성한다. 더불어 검증자 파일 및 서버의 암호화 키가 다수의 서버들에게 분산되도록 설계된 방식을 제안한다. This paper presents a password based authentication and key exchange protocol which can be used for both authenticating users and exchanging session keys for a subsequent secure communication over an untrusted network. Our idea is to increase a randomness of the password verification data, i.e., we split the password, and then amplify the split passwords in the high entropy-structured password verification data. And in order to prevent the verifier-compromised attack, we construct our system such that the password verification data is encrypted with the verifier's key and the private key of verifier used to encrypt it is stored in a secure place like a smart cards. Also we propose the distributed password authentication scheme utilizing many authentication servers in order to prevent the server-compromised attack occurred when only one server is used. Furthermore, the security analysis on the proposed protocol has been presented as a conclusion.
고연색 LED용 적색 Sr<sub>2</sub>Si<sub>5</sub>N<sub>8</sub>:Eu<sup>2+</sup> 형광체의 합성 및 발광특성 연구
이성훈,김종수,강태욱,류종호,이상남,Lee, Sung Hoon,Kim, Jong Su,Kang, Tae Wook,Ryu, Jong Ho,Lee, Sang Nam 한국반도체디스플레이기술학회 2017 반도체디스플레이기술학회지 Vol.16 No.4
Red phosphors, $Sr_2Si_5N_8:Eu^{2+}$, were synthesized as a single-phase crystal structure by optimizing carbon and $Eu^{2+}$ contents in a carbothermal reduction nitridation method. With increasing $Eu^{2+}$ contents, the photoluminescence spectra were red-shifted from 600 nm peak for 1 mol% for to 700 nm for 7 mol%. It was suggested that this red shift is attributed to the energy transfer from one low-energy sited $Eu^{2+}$ (1) to other high-energy sited $Eu^{2+}$ (2). Finally, the best red sample (620 nm emission peak and 80 nm half width for 3 mole% of $Eu^{2+}$) was packaged on a Blue LED together with two additional green and yellow phosphors, the fabricated White LED showed a high color-rendering index of 90 and white color coordinates of x= 0.321 and y = 0.305.