Ashing properties in a surface-wave mode at 133 Pa and 1 kW with an alumina disk-plate window are investigated by comparison of those in a volume mode with a quartz disk-plate window. In the surface-wave mode, plasma is confined to the alumina window surface area and ashing in a downstream area is carried out mainly by atomic oxygen. The ashing activation energy of 0.42 eV in the surface-wave mode ashing is comparable to 0.5 eV with an ashing condition by atomic oxygen at the ground state [O(3P)](the so-called downstream state). These results indicate that the plasma in the surface-wave mode can realize a downstream ashing condition. On the other hand, ashing with a quartz window was done by plasma, where the activation energy is influenced by built-in high-frequency magnetic field. Moreover, the ashing rate distribution in the surface-wave mode characterized with the alumina window is more uniform than that in the volume mode with the quartz window.
[1]
M. Moisan,et al.
Attenuation of a surface wave in an unmagnetized RF plasma column
,
1977
.
[2]
Hiroshi Yano,et al.
Ashing of Ion-Implanted Resist Layer
,
1989
.
[3]
Haruo Shindo,et al.
Production of Large-Diameter Microwave Plasma with a High-Permittivity Material Window
,
1998
.
[4]
M. Nagatsu,et al.
Optical Emission and Microwave Field Intensity Measurements in Surface Wave-Excited Planar Plasma
,
1996
.
[5]
Haruo Shindo,et al.
Oxygen Microwave Plasma Density Enhancement by Surface Waves with a High-Permittivity Material Window
,
1999
.