So Yeon Jun
Hankuk University of Foreign Studies
10 Papers
11 Citations
So Yeon Jun is an academic researcher from Hankuk University of Foreign Studies. The author has contributed to research in topics: Dielectric & Medicine. The author has an hindex of 3, co-authored 3 publications.
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Papers
Dispersion retrieval from multi-level ultra-deep reactive-ion-etched microstructures for terahertz slow-wave circuits
Chan-Wook Baik,Ho Young Ahn,Yongsung Kim,Jooho Lee,Seogwoo Hong,Jun-hee Choi,Sunil Kim,Sang-hun Lee,So Yeon Jun,SeGi Yu,R. Lawrence Ives,Jong Min Kim,Sungwoo Hwang +12 more
TL;DR: A multi-level microstructure for terahertz slow-wave circuits, with dispersion relation retrieved by scattering parameter measurements, has been proposed in this paper, where the measured return loss shows strong resonances above the cutoff with negligible phase shifts compared with finite element analysis.
Frequency shifts in two-level ultra-deep reactive ion etched slow-wave structures for 0.1 THz backward-wave oscillations
Chan-Wook Baik,Seogwoo Hong,Jong-seok Kim,Ho Young Ahn,Jun-hee Choi,Sunil Kim,Jooho Lee,Yongsung Kim,Jong Min Kim,Sungwoo Hwang,So Yeon Jun,SeGi Yu +11 more
TL;DR: In this article, a two-level ultra-deep reactive ion etching (u-DRIE) on highly doped silicon wafers has been employed and allowed for complicated 3D structures with high aspect ratio, but the measured spectra of return loss showed 1.2% and 6.8% upshifts in both cutoff and resonant frequencies, respectively.
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Reduction Time Effect on the Dielectric Characteristics of Reduced-Graphene-Oxide--Encapsulated Barium Titanate Powder Fillers
So Yeon Jun,Seung Hun Park,Minkyun Sohn,Seung Chan Kim,Jung Min Lee,Dae Sol Kong,Tae-Young Lee,Jong Hoon Jung,Min-Su Kim,Sehoon Yoo,Jae-Hyeon Ko,SeungNam Cha,Donggeun Jung,Jin Young Kim,SeGi Yu +14 more
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Nonlinear dynamics of femtosecond laser interaction with the central nervous system in zebrafish
So Yeon Jun,André Ricardo Herbst,K. Scheffter,Nora John,Julia Kolb,Daniel Wehner,Hanieh Fattahi +6 more
TL;DR: Researchers investigate femtosecond laser interactions with zebrafish central nervous system, identifying two cavitation regimes and demonstrating localized damage at low repetition rates and collateral damage at high rates, with implications for nonlinear optical microscopy techniques.
Return loss measurement of a microfabricated slow-wave structure for backward-wave oscillation
Chan-Wook Baik,So Yeon Jun,Ho Young Ahn,Seogwoo Hong,Jooho Lee,Yongsung Kim,Sang-hun Lee,SeGi Yu,Jong Min Kim +8 more
- 28 Oct 2010
TL;DR: In this article, a microfabricated slow-wave structure was designed to operate at 100 GHz of W-band frequency and showed a good side-wall profile but inaccurately curved bottom surface.
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