AES, XPS and LEED were used to study the role of the laser energy density and total photon dose on the efficiency of KrF (?=248 nm) and ArF (?=193 nm) excimer laser induced cleaning of Si(100) surfaces. Samples having the native oxide layer were first investigated. It was found that significant oxide removal takes place only at. Atomically clean, damage free Si(100) surfaces were obtained irradiating pre-etched samples, which had only a thin SiOx (x<2) layer and F, C and O containing adsorbed species. At 248 nm, when using 15 pulses, complete contaminant elimination was achieved in regions exposed to 0.8 J/cm2 without provoking any morphological modification of the surface. At 193 nm clean surfaces were produced using average energy densities as low as 0.2 J/cm2, if the number of laser shots was properly increased. © 1995.
Excimer laser cleaning of Si(100) surfaces at 193 and 248 nm studied by LEED, AES and XPS spectroscopies
Larciprete R;
1995
Abstract
AES, XPS and LEED were used to study the role of the laser energy density and total photon dose on the efficiency of KrF (?=248 nm) and ArF (?=193 nm) excimer laser induced cleaning of Si(100) surfaces. Samples having the native oxide layer were first investigated. It was found that significant oxide removal takes place only at. Atomically clean, damage free Si(100) surfaces were obtained irradiating pre-etched samples, which had only a thin SiOx (x<2) layer and F, C and O containing adsorbed species. At 248 nm, when using 15 pulses, complete contaminant elimination was achieved in regions exposed to 0.8 J/cm2 without provoking any morphological modification of the surface. At 193 nm clean surfaces were produced using average energy densities as low as 0.2 J/cm2, if the number of laser shots was properly increased. © 1995.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
