Linewidth Narrowing in Microstrip Resonator Using Effective Highly Dispersive Medium
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Abstract
An effective highly dispersive medium is proposed by utilizing strong dispersion of localized defect mode in a microstrip photonic crystal. Linewidth narrowing in a composite microstrip resonator using this photonic-crystal-based effective medium is investigated and its dependence on the structure parameters is presented. Both numerical simulations and experimental results demonstrate that compared to the traditional resonator, the Q-factor increases much more quickly and the peak transmission decreases more slowly at the same time for the composite resonator.
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LI Yun-Hui, JIANG Hai-Tao, HE Li, LI Hong-Qiang, ZHANG Ye-Wen, CHEN Hong, ZHU Shi-Yao. Linewidth Narrowing in Microstrip Resonator Using Effective Highly Dispersive Medium[J]. Chin. Phys. Lett., 2007, 24(4): 975-978.
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LI Yun-Hui, JIANG Hai-Tao, HE Li, LI Hong-Qiang, ZHANG Ye-Wen, CHEN Hong, ZHU Shi-Yao. Linewidth Narrowing in Microstrip Resonator Using Effective Highly Dispersive Medium[J]. Chin. Phys. Lett., 2007, 24(4): 975-978.
|
LI Yun-Hui, JIANG Hai-Tao, HE Li, LI Hong-Qiang, ZHANG Ye-Wen, CHEN Hong, ZHU Shi-Yao. Linewidth Narrowing in Microstrip Resonator Using Effective Highly Dispersive Medium[J]. Chin. Phys. Lett., 2007, 24(4): 975-978.
|
LI Yun-Hui, JIANG Hai-Tao, HE Li, LI Hong-Qiang, ZHANG Ye-Wen, CHEN Hong, ZHU Shi-Yao. Linewidth Narrowing in Microstrip Resonator Using Effective Highly Dispersive Medium[J]. Chin. Phys. Lett., 2007, 24(4): 975-978.
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