Spontaneous-emission control by photonic crystals and nanocavities S Noda, M Fujita, T Asano Nature photonics 1 (8), 449-458, 2007 | 1159 | 2007 |
Simultaneous inhibition and redistribution of spontaneous light emission in photonic crystals M Fujita, S Takahashi, Y Tanaka, T Asano, S Noda Science 308 (5726), 1296-1298, 2005 | 590 | 2005 |
Terahertz topological photonics for on-chip communication Y Yang, Y Yamagami, X Yu, P Pitchappa, J Webber, B Zhang, M Fujita, ... Nature Photonics 7 (14), 446–451, 2020 | 542 | 2020 |
Theoretical analysis on light-extraction efficiency of organic light-emitting diodes using FDTD and mode-expansion methods A Chutinan, K Ishihara, T Asano, M Fujita, S Noda Organic electronics 6 (1), 3-9, 2005 | 237 | 2005 |
Continuous wave lasing in GaInAsP microdisk injection laser with threshold current of 40 µA M Fujita, R Ushigome, T Baba Electronics Letters 36 (9), 790-791, 2000 | 226 | 2000 |
Ultrasmall and ultralow threshold GaInAsP-InP microdisk injection lasers: design, fabrication, lasing characteristics, and spontaneous emission factor M Fujita, A Sakai, T Baba IEEE Journal of selected topics in Quantum Electronics 5 (3), 673-681, 1999 | 220 | 1999 |
Organic light-emitting diodes with photonic crystals on glass substrate fabricated by nanoimprint lithography K Ishihara, M Fujita, I Matsubara, T Asano, S Noda, H Ohata, A Hirasawa, ... Applied Physics Letters 90 (11), 2007 | 200 | 2007 |
Extremely low-loss terahertz waveguide based on silicon photonic-crystal slab K Tsuruda, M Fujita, T Nagatsuma Optics express 23 (25), 31977-31990, 2015 | 192 | 2015 |
Lasing characteristics of GaInAsP-InP strained quantum-well microdisk injection lasers with diameter of 2-10 μm T Baba, M Fujita, A Sakai, M Kihara, R Watanabe IEEE Photonics Technology Letters 9 (7), 878-880, 1997 | 177 | 1997 |
Capture of a terahertz wave in a photonic-crystal slab R Kakimi, M Fujita, M Nagai, M Ashida, T Nagatsuma Nature Photonics 8 (8), 657-663, 2014 | 163 | 2014 |
Microgear laser M Fujita, T Baba Applied physics letters 80 (12), 2051-2053, 2002 | 146 | 2002 |
Reduction of operating voltage in organic light-emitting diode by corrugated photonic crystal structure M Fujita, T Ueno, K Ishihara, T Asano, S Noda, H Ohata, T Tsuji, ... Applied physics letters 85 (23), 5769-5771, 2004 | 119 | 2004 |
Optical and electrical characteristics of organic light-emitting diodes with two-dimensional photonic crystals in organic/electrode layers M Fujita, K Ishihara, T Ueno, T Asano, S Noda, H Ohata, T Tsuji, ... Japanese journal of applied physics 44 (6R), 3669, 2005 | 111 | 2005 |
Terahertz sensor using photonic crystal cavity and resonant tunneling diodes K Okamoto, K Tsuruda, S Diebold, S Hisatake, M Fujita, T Nagatsuma Journal of Infrared, Millimeter, and Terahertz Waves 38, 1085-1097, 2017 | 99 | 2017 |
Photonic crystal efficiency boost S Noda, M Fujita nature photonics 3 (3), 129-130, 2009 | 98 | 2009 |
Integrated silicon photonic crystals toward terahertz communications W Withayachumnankul, M Fujita, T Nagatsuma Advanced Optical Materials 6 (16), 1800401, 2018 | 97 | 2018 |
All-dielectric rod antenna array for terahertz communications W Withayachumnankul, R Yamada, M Fujita, T Nagatsuma APl Photonics 3 (5), 2018 | 90 | 2018 |
Effective-medium-cladded dielectric waveguides for terahertz waves W Gao, X Yu, M Fujita, T Nagatsuma, C Fumeaux, W Withayachumnankul Optics express 27 (26), 38721-38734, 2019 | 88 | 2019 |
Terahertz multi-beam antenna using photonic crystal waveguide and Luneburg lens D Headland, W Withayachumnankul, R Yamada, M Fujita, T Nagatsuma Apl Photonics 3 (12), 2018 | 86 | 2018 |
Millimeter-wave and terahertz-wave applications enabled by photonics T Nagatsuma, S Hisatake, M Fujita, HHN Pham, K Tsuruda, S Kuwano, ... IEEE Journal of Quantum Electronics 52 (1), 1-12, 2015 | 83 | 2015 |