10. Cavity induced perfect absorption in metamaterials
Hong Luu Dang, Hoang Tung Nguyen, Van Dung Nguyen, Son Tung Bui, Dac Tuyen Le, Quang Minh Ngo and Dinh Lam Vu
Adv. Nat. Sci: Nanosci. Nanotechnol. 7, 015015 (2016).
[DOI]
09. Advantages of Mie resonance-based metamaterial perfect absorber: stable fabrication and high applicability
N. V. Dung, B. S. Tung, B. X. Khuyen, Y. J. Yoo, J. Y. Rhee, V. D. Lam, and Y. P. Lee
Opt. Commun. (submitted).
08. Multi-band near-perfect absorption via the resonance excitation of dark meta-molecules
B. S. Tung, B. X. Khuyen, N. V. Dung, V. D. Lam, Y. H. Kim, and Y. P. Lee
07. Simple metamaterial structure enabling triple-band perfect absorber
N. V. Dung, B. S. Tung, B. X. Khuyen, Y. J. Yoo, Y. J. Kim, J. Y. Rhee, V. D. Lam, and Y. P. Lee
J. Phys. D: Appl. Phys. 48, 375103 (2015).
[PDF]
[DOI]
06. Size-efficient metamaterial absorber at low frequencies: Design, fabrication, and characterization
B. X. Khuyen, B. S. Tung, N. V. Dung, Y. J. Yoo, Y. J. Kim, K. W. Kim, V. D. Lam, J. G. Yang, and Y. P. Lee
05. Perfect and Broad Absorption by the Active Control of Electric Resonance in Metamaterial
N. V. Dung, P. V. Tuong, Y. J. Yoo, Y. J. Kim, B. S. Tung, V. D. Lam, J. Y. Rhee, K. W. Kim, Y. H. Kim, L. Y. Chen, and Y. P. Lee
04. Small-size metamaterial perfect absorber operating at low frequency
B. S. Tung, B. X. Khuyen, N. V. Dung, Y. J. Yoo, K. W. Kim, V. D. Lam, and Y. P. Lee
Adv. Nat. Sci: Nanosci. Nanotechnol. 5, 045008 (2014).
[PDF]
[DOI]
03. Polarization dependence of the metamagnetic resonance of cut-wire-pair structure by using plasmon hybridization
N. V. Dung, Y. J. Yoo, N. T. Tung, B. S. Tung, V. D. Lam, and Y. P. Lee
02. Thermally tunable magnetic metamaterials at THz frequencies
B. S. Tung, N. V. Dung, B. X. Khuyen, N. T. Tung, P. Lievens, Y. P. Lee, and V. D. Lam
01. Horizontally plasmon hybridization on symmetric-breaking metamaterials
N. T. Hien, B. S. Tung, B. X. Khuyen, N. V. Dung, D. T. Viet, Y. P. Lee, N. T. Tung, and V. D. Lam
J. Opt. 17 045105 (2015).