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Post-modern Interpretation of Ham Sokhon s Minjung Pacifism
Jiseok Jung 성공회대학교 신학연구소 2010 Madang: Journal of Contextual Theology Vol.13 No.-
This essay explores the post-modern characteristics of Ham Sokhon s minjung pacifism in terms of the minjung democracy, the global minjung nationalism, anti-statism(the global minjung community) and the nonviolent pacifism. Ham Sokhon was the great thinker of peace in the twentieth century Korea.2) First of all, we deal with Ham Sokhon s idea of the minjung as a foundational idea of his minjung pacifism.
한국 기독교 평화 윤리의 연구: 기독교 평화주의(Christian Pacifism)와 함석헌의 평화 사상
정지석 ( Jiseok Jung ) 한국기독교사회윤리학회 2006 기독교사회윤리 Vol.11 No.-
This essay explores Christian ethic of peace in the Korean situation. Christian pacifism is examined in two aspects: absolute pacifism(nonresistance) and reformative pacifism(nonviolence). And its biblical, spiritual and theological grounds are also examined in terms of the Sermon on the Mount, the Cross, Early Christians` pacifism based on eschatological faith. Ham Sokhon`s idea of peace is dealt with as a connection between Christian pacifism and Korean Christianity. It is argued that Ham Sokhon`s experience of Quakerism, which is one of the historic peace churches (Mennonites, Quakers and the Church of Brethren), provided a spiritual impetus to his ideas of anti-war, anti-militaristic pacifism and nonviolence which were characterized as not only the absolute but also the reformative pacifism. In this regard, it is suggested that Christian pacifism was transmitted into Korean Christianity through Ham Sokhon. It is also explored that Ham Sokhon`s idea of peace was expressed as conscientious objection, anti-Vietnam war, peaceful reunification and nonviolent resistance against the military dictatorship in South Korea. In conclusion, Christian pacifism is suggested as a spiritual and theological ground for Korean Christian ethic of peace.
Universal process-inert encoding architecture for polymer microparticles
Lee, Jiseok,Bisso, Paul W.,Srinivas, Rathi L.,Kim, Jae Jung,Swiston, Albert J.,Doyle, Patrick S. Nature Publishing Group, a division of Macmillan P 2014 NATURE MATERIALS Vol.13 No.5
Polymer microparticles with unique, decodable identities are versatile information carriers with a small footprint. Widespread incorporation into industrial processes, however, is limited by a trade-off between encoding density, scalability and decoding robustness in diverse physicochemical environments. Here, we report an encoding strategy that combines spatial patterning with rare-earth upconversion nanocrystals, single-wavelength near-infrared excitation and portable CCD (charge-coupled device)-based decoding to distinguish particles synthesized by means of flow lithography. This architecture exhibits large, exponentially scalable encoding capacities (>10<SUP>6</SUP> particles), an ultralow decoding false-alarm rate (<10<SUP>−9</SUP>), the ability to manipulate particles by applying magnetic fields, and pronounced insensitivity to both particle chemistry and harsh processing conditions. We demonstrate quantitative agreement between observed and predicted decoding for a range of practical applications with orthogonal requirements, including covert multiparticle barcoding of pharmaceutical packaging (refractive-index matching), multiplexed microRNA detection (biocompatibility) and embedded labelling of high-temperature-cast objects (temperature resistance).
Remote Laser-Microwave Synchronization Over Kilometer-Scale Fiber Link With Few-Femtosecond Drift
Kwangyun Jung,Jiseok Lim,Junho Shin,Heewon Yang,Li-Jin Chen,Kartner, Franz X.,Heung-Sik Kang,Chang-Ki Min,Jungwon Kim IEEE 2014 Journal of Lightwave Technology Vol.32 No.20
<P>We show the remote synchronization between a mode-locked laser and a microwave source, separated by a hundreds meter- to kilometer-scale fiber link, with few-femtosecond rms timing drift maintained over several hours. In a laboratory test, the measured timing drift between a mode-locked laser and a 2.856-GHz microwave source, separated by a 610-m fiber link, is 2.7 fs rms (0.048 mrad phase drift) over 7 h. The corresponding relative instability in remote laser-microwave synchronization is 7.2 × 10 <SUP>-19</SUP> in 6300 s averaging time, in terms of overlapping Allan deviation. We further installed 1.15-km long fiber links in an accelerator building and measured the relative phase drift at the link outputs in a klystron gallery, which resulted in 6.6-fs and 31-fs rms timing drift maintained over 7 and 62 h, respectively. To achieve this performance, we combined a balanced optical cross-correlator (BOC)-based stabilized fiber link for remote timing transfer and an optical-microwave phase detector (OM-PD) for local optical-to-microwave synchronization. We identified the impact of power and polarization-state drift in the fiber link and amplitude-to-phase conversion in the OM-PD on the link stability. Based on this analysis, possible technical improvements enabling even higher timing precision and stability are identified.</P>
Minseok Choi,Jung Mo Yang,Jiseok Lim,Namseok Lee,Shinill Kang IEEE 2009 IEEE transactions on magnetics Vol.45 No.5
<P>In this research, the effect of lift height of magnetic force microscopy (MFM) tip on the resolution of the magnetic force microscopy images of the magnetic pillar patterns, having diameter of 50 nm, pitch of 100 nm, and height of 35 nm was analyzed experimentally. A patterned substrate for patterned magnetic media was fabricated by an UV nanoimprinting process with a silicon nanostamp. The silicon nanostamp was fabricated by electron-beam lithography and inductively coupled plasma etching process. We deposited magnetic layers on the nanoimprinted pillar patterns to make the perpendicular patterned magnetic media with isolated magnetic domains. The magneto-optic Kerr effect analysis was carried out to evaluate the magnetic properties of the deposited magnetic layer. To analyze the effect of lift height of MFM tip on the resolution of the MFM images of the isolated nano scale magnetic domains, MFM measurement was carried out with various MFM tip lift heights. Finally, the optimum lift height of the MFM tip was obtained as 35 nm for higher resolution of MFM images of the isolated magnetic domains.</P>