| Growth and optical properties of nanometer‐scale GaAs and InAs whiskers K Hiruma, M Yazawa, T Katsuyama, K Ogawa, K Haraguchi, M Koguchi, ... Journal of Applied Physics 77 (2), 447-462, 1995 | 857 | 1995 |
| GaAs p‐n junction formed in quantum wire crystals K Haraguchi, T Katsuyama, K Hiruma, K Ogawa Applied Physics Letters 60 (6), 745-747, 1992 | 320 | 1992 |
| GaAs free‐standing quantum‐size wires K Hiruma, M Yazawa, K Haraguchi, K Ogawa, T Katsuyama, M Koguchi, ... Journal of Applied Physics 74 (5), 3162-3171, 1993 | 310 | 1993 |
| A multi-branch, fiber-based frequency comb with millihertz-level relative linewidths using an intra-cavity electro-optic modulator Y Nakajima, H Inaba, K Hosaka, K Minoshima, A Onae, M Yasuda, ... Optics Express 18 (2), 1667-1676, 2010 | 245 | 2010 |
| Crystal structure change of GaAs and InAs whiskers from zinc-blende to wurtzite type M Koguchi, H Kakibayashi, M Yazawa, KHK Hiruma, TKT Katsuyama Japanese journal of applied physics 31 (7R), 2061, 1992 | 227 | 1992 |
| Quantum size microcrystals grown using organometallic vapor phase epitaxy K Hiruma, T Katsuyama, K Ogawa, M Koguchi, H Kakibayashi, ... Applied physics letters 59 (4), 431-433, 1991 | 179 | 1991 |
| Polarization dependence of light emitted from GaAs p‐n junctions in quantum wire crystals K Haraguchi, T Katsuyama, K Hiruma Journal of Applied Physics 75 (8), 4220-4225, 1994 | 161 | 1994 |
| Self-organized growth of GaAsInAs heterostructure nanocylinders by organometallic vapor phase epitaxy K Hiruma, H Murakoshi, M Yazawa, T Katsuyama Journal of Crystal Growth 163 (3), 226-231, 1996 | 148 | 1996 |
| Infrared optical fibers T Katsuyama, H Matsumura Adam Hilger Series on Optics and Optoelectronics, 1989 | 147 | 1989 |
| Semiconductor device using whiskers M Yazawa, K Hiruma, T Katsuyama, N Futigami, H Matsumoto, ... US Patent 5,362,972, 1994 | 146 | 1994 |
| Low-loss single-polarisation fibres T Katsuyama, H Matsumura, T Suganuma Electronics letters 13 (17), 473-474, 1981 | 142 | 1981 |
| Semiconductor optical device with nanowhiskers K Haraguchi, K Hiruma, K Ogawa, T Katsuyama, K Yamaguchi, ... US Patent 5,332,910, 1994 | 140 | 1994 |
| A dispersion compensator using coupled defects in a photonic crystal K Hosomi, T Katsuyama IEEE journal of Quantum Electronics 38 (7), 825-829, 2002 | 115 | 2002 |
| Site‐controlled growth of nanowhiskers T Sato, K Hiruma, M Shirai, K Tominaga, K Haraguchi, T Katsuyama, ... Applied Physics Letters 66 (2), 159-161, 1995 | 101 | 1995 |
| Self‐organized fabrication of planar GaAs nanowhisker arrays K Haraguchi, K Hiruma, T Katsuyama, K Tominaga, M Shirai, T Shimada Applied Physics Letters 69 (3), 386-387, 1996 | 100 | 1996 |
| InGaAsP/InP monolithic integrated circuit with lasers and an optical switch S Sakano, H Inoue, H Nakamura, T Katsuyama, H Matsumura Electronics Letters 11 (22), 594-596, 1986 | 76 | 1986 |
| Low loss Ge‐Se chalcogenide glass optical fibers T Katsuyama, K Ishida, S Satoh, H Matsumura Applied physics letters 45 (9), 925-927, 1984 | 71 | 1984 |
| An 8 mm length nonblocking 4* 4 optical switch array H Inoue, H Nakamura, K Morosawa, Y Sasaki, T Katsuyama, N Chinone IEEE journal on selected areas in communications 6 (7), 1262-1266, 1988 | 55 | 1988 |
| Low‐loss Te‐based chalcogenide glass optical fibers T Katsuyama, H Matsumura Applied physics letters 49 (1), 22-23, 1986 | 55 | 1986 |
| Polarization dependence of excitonic-polariton propagation in a GaAs quantum-well waveguide K Ogawa, T Katsuyama, H Nakamura Physical review letters 64 (7), 796, 1990 | 52 | 1990 |
