| Full three-dimensional photonic bandgap crystals at near-infrared wavelengths S Noda, K Tomoda, N Yamamoto, A Chutinan Science 289 (5479), 604-606, 2000 | 1548 | 2000 |
| Trapping and emission of photons by a single defect in a photonic bandgap structure S Noda, A Chutinan, M Imada nature 407 (6804), 608-610, 2000 | 1444 | 2000 |
| Coherent two-dimensional lasing action in surface-emitting laser with triangular-lattice photonic crystal structure M Imada, S Noda, A Chutinan, T Tokuda, M Murata, G Sasaki Applied physics letters 75 (3), 316-318, 1999 | 896 | 1999 |
| Polarization mode control of two-dimensional photonic crystal laser by unit cell structure design S Noda, M Yokoyama, M Imada, A Chutinan, M Mochizuki Science 293 (5532), 1123-1125, 2001 | 789 | 2001 |
| Waveguides and waveguide bends in two-dimensional photonic crystal slabs A Chutinan, S Noda Physical review B 62 (7), 4488, 2000 | 600 | 2000 |
| Multidirectionally distributed feedback photonic crystal lasers M Imada, A Chutinan, S Noda, M Mochizuki Physical Review B 65 (19), 195306, 2002 | 324 | 2002 |
| Highly confined waveguides and waveguide bends in three-dimensional photonic crystal A Chutinan, S Noda Applied Physics Letters 75 (24), 3739-3741, 1999 | 258 | 1999 |
| Wider bandwidth with high transmission through waveguide bends in two-dimensional photonic crystal slabs A Chutinan, M Okano, S Noda Applied physics letters 80 (10), 1698-1700, 2002 | 242 | 2002 |
| 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 |
| Diffractionless flow of light in all-optical microchips A Chutinan, S John, O Toader Physical review letters 90 (12), 123901, 2003 | 219 | 2003 |
| Light trapping and absorption optimization in certain thin-film photonic crystal architectures A Chutinan, S John Physical Review A—Atomic, Molecular, and Optical Physics 78 (2), 023825, 2008 | 218 | 2008 |
| Surface-emitting channel drop filters using single defects in two-dimensional photonic crystal slabs A Chutinan, M Mochizuki, M Imada, S Noda Applied Physics Letters 79 (17), 2690-2692, 2001 | 175 | 2001 |
| High-efficiency photonic crystal solar cell architecture A Chutinan, NP Kherani, S Zukotynski Optics Express 17 (11), 8871-8878, 2009 | 169 | 2009 |
| Photonic bands of metallic systems. I. Principle of calculation and accuracy K Sakoda, N Kawai, T Ito, A Chutinan, S Noda, T Mitsuyu, K Hirao Physical review B 64 (4), 045116, 2001 | 146 | 2001 |
| Spiral three-dimensional photonic-band-gap structure A Chutinan, S Noda Physical Review B 57 (4), R2006, 1998 | 141 | 1998 |
| Semiconductor three-dimensional and two-dimensional photonic crystals and devices S Noda, M Imada, M Okano, S Ogawa, M Mochizuki, A Chutinan IEEE Journal of Quantum Electronics 38 (7), 726-735, 2002 | 139 | 2002 |
| Channel drop filter using a single defect in a 2-D photonic crystal slab waveguide M Imada, S Noda, A Chutinan, M Mochizuki, T Tanaka Journal of Lightwave Technology 20 (5), 873-878, 2002 | 131 | 2002 |
| Development of one period of a three-dimensional photonic crystal in the 5–10 µm wavelength region by wafer fusion and laser beam diffraction pattern observation techniques NYN Yamamoto, SNS Noda, ACA Chutinan Japanese journal of applied physics 37 (9A), L1052, 1998 | 113 | 1998 |
| Silicon photovoltaics using conducting photonic crystal back‐reflectors PG O'Brien, NP Kherani, A Chutinan, GA Ozin, S John, S Zukotynski Advanced Materials 20 (8), 1577-1582, 2008 | 110 | 2008 |
| Two-dimensional photonic crystal, and multiplexer/demultiplexer using the same S Noda, A Chutinan, D Miyauchi, Y Narumiya US Patent 6,738,551, 2004 | 94 | 2004 |
