| 1 |
Micrometer-sized graphitic balls produced together with single-wall carbon nanohorns
Fan J, Yudasaka M, Kasuya D, Azami T, Yuge R, Imai H, Kubo Y, Iijima S
Journal of Physical Chemistry B, 109(21), 10756, 2005 |
| 2 |
Material storage mechanism in porous nanocarbon
Ajima K, Yudasaka M, Suenaga K, Kasuya D, Azami T, Iijima S
Advanced Materials, 16(5), 397, 2004 |
| 3 |
Three-dimensional oscillatory flow in a thin annular pool of silicon melt
Li YR, Imaishi N, Azami T, Hibiya T
Journal of Crystal Growth, 260(1-2), 28, 2004 |
| 4 |
Non-invasive techniques for observing the surface behavior of molten silicon
Hibiya T, Nakamura S, Sumiji M, Azami T
Journal of Crystal Growth, 237, 1854, 2002 |
| 5 |
The effect of oxygen on the temperature fluctuation of Marangoni convection in a molten silicon bridge
Azami T, Nakamura S, Hibiya T
Journal of Crystal Growth, 223(1-2), 116, 2001 |
| 6 |
Optical observation of solid-melt interface fluctuation due to Marangoni flow in a silicon liquid bridge
Sumiji M, Nakamura S, Azami T, Hibiya T
Journal of Crystal Growth, 223(4), 503, 2001 |
| 7 |
Observation of periodic thermocapillary flow in a molten silicon bridge by using non-contact temperature measurements
Azami T, Nakamura S, Hibiya T
Journal of Crystal Growth, 231(1-2), 82, 2001 |
| 8 |
The role of surface-tension-driven flow in the formation of a surface pattern on a Czochralski silicon melt
Azami T, Nakamura S, Eguchi M, Hibiya T
Journal of Crystal Growth, 233(1-2), 99, 2001 |
| 9 |
Interpreting the oxygen partial pressure around a molten silicon drop in terms of its surface tension
Azami T, Hibiya T
Journal of Crystal Growth, 233(3), 417, 2001 |
| 10 |
Effect of oxygen on thermocapillary convection in a molten silicon column under microgravity
Azami T, Nakamura S, Hibiya T
Journal of the Electrochemical Society, 148(4), G185, 2001 |
