Before 2013
1. J.-S. Shin, M.-S. Kwon, and S.-Y. Shin, “Design and analysis of a vertical directional coupler between a three-dimensional plasmonic slot waveguide and a silicon waveguide,” Opt. Commun. 284, 3522-3527 (2011). (Corresponding author)
2. M.-S. Kwon, “Metal-insulator-silicon-insulator-metal waveguides compatible with standard CMOS technology,” Opt. Express 19, 8379-8393 (2011).
3. M.-S. Kwon, “Theoretical investigation of an interferometer-type plasmonic biosensor using a metal-insulator-silicon waveguide,” Plasmonics 5, 347-354 (2010).
4. M.-S. Kwon, “Disposable and compact integrated-plasmonic sensor using a long-period grating,” Opt. Lett. 35, 3835-3837 (2010).
5. M.-S. Kwon, “A numerically stable analysis method for complex multilayer waveguides based on modified transfer-matrix equations,” J. Lightwave Technol. 27, 4407-4414 (2009).
6. M.-S. Kwon and S.-Y. Shin, “Influence of the parameters of a heater array inducing a thermooptic long-period grating on its power consumption,” J. Lightwave Technol. 27, 1108- 1113 (2009).
7. M.-S. Kwon and W. H. Steier, “Microring-resonator-based sensor measuring both the concentration and temperature of a solution,” Opt. Express 16, 9372-9377 (2008). (First and corresponding author)
8. SK Kim, YC Hung, W Yuan, DH Cha, K Geary, H R Fetterman, SM Ha, Q Pei, J Luo, X Zhou, A Jen, MS Kwon, and W Steier, “Metal-slotted polymer optical waveguide device,” Appl. Phys. Lett. 90, 243507 (2007)
9. M.-S. Kwon, “Comments on “Effects of Polarization Rotation in Optical Ring-Resonator-Based Devices”,” J. Lightwave Technol. 24, 5119-5119 (2006).
10. M.-S. Kwon and S.-Y. Shin, “Theoretical investigation of a notch filter using a long-period grating based on the sampling theorem,” Opt. Commun. 263, 214-218 (2006).
11. M.-S. Kwon, Y.B. Cho, and S.-Y. Shin, “Experimental demonstration of a long-period grating based on the sampling theorem,” Appl. Phys. Lett. 88, 211103 (2006). (First and corresponding author)
12. M.-S. Kwon and S.-Y. Shin, “Refractive index sensitivity measurement of a long-period waveguide grating,” IEEE Photon. Technol. Lett. 17, 1923-1925 (2005).
13. M.-S. Kwon and S.-Y. Shin, “Spectral tailoring of uniform long-period waveguide grating by the cladding thickness control,” Opt. Commun. 250, 41-47 (2005).
14. M.-S. Kwon and S.-Y. Shin, “Polymer waveguide notch filter using two stacked thermooptic long-period gratings,” IEEE Photon. Technol. Lett. 17, 792-794 (2005).
15. M.-S. Kwon and S.-Y. Shin, “Characteristics of polymer waveguide notch filters using thermooptical long-period gratings,” IEEE J. Sel. Top. Quantum Electron.. 11, 190-196 (2005).
16. M.-S. Kwon and S.-Y. Shin, “Tunable polymer waveguide notch filter using a thermooptic longperiod grating,” IEEE Photon. Technol. Lett. 17, 145-147 (2005). (First author)
17. Y.-H. Oh, M.-S. Kwon, S.-Y. Shin, S. Choi, and K. Oh, “In-line polarization controller using hollow optical fiber filled with liquid crystal,” Opt. Lett. 29, 2605-2607 (2004).
18. M.-S. Kwon and S.-Y. Shin, “Tunable notch filter using a thermo-optical long-period grating,” J. Lightwave Technol. 22, 1968-1975 (2004).
19. K.-H. Kim, M.-S. Kwon, S.-Y. Shin, and D.-S. Choi, “Vertical digital thermo-optic switch in polymers,” IEEE Photon. Technol. Lett. 16, 783-785 (2004).
20. M.-S. Kwon and S.-Y. Shin, “Simple and fast numerical analysis of multilayer waveguide modes,” Opt. Commun. 233, 119-126 (2004).
21. M.-S. Kwon, K.-H. Kim, Y.-H. Oh, and S.-Y. Shin, “Fabrication of an integrated optical filter using a large-core multimode waveguide vertically coupled to a single-mode waveguide,” Opt. Express 11, 2211-2216 (2003).
22. H.-J. Eom, Y.-H. Cho, and M.-S. Kwon, “Monopole antenna radiation into a parallel-plate waveguide,” IEEE Trans. Antennas Propagat. 48, 1142-1144 (2000).
23. B.-T. Lee, M.-S. Kwon, J.-B. Yoon, and S.-Y. Shin, “Fabrication of polymeric large-core waveguides for optical interconnects using a rubber molding process,” IEEE Photon. Technol. Lett. 12, 62-64 (2000).