论文信息 - A short-channel CMOS/SOS technology in recrystallized 0.3-µm-thick silicon-on-sapphire films

A short-channel CMOS/SOS technology in recrystallized 0.3-µm-thick silicon-on-sapphire films

CMOS/SOS devices and circuits were fabricated in 0.3-µm-thick epitaxial silicon-on-sapphire (SOS) films. Two solid-phase epitaxial recrystallization techniques double solid-phase epitaxy (DSPE) and solid-phase epitaxy and regrowth (SPEAR) reduced the total microtwin concentrations in the Si layers more than tenfold, while increasing electron and hole inversion-layer mobilities between 30 and 45 percent. Leakage currents were substantially reduced in all SPEAR devices and in n-channel DSPE transistors, with some increase observed for p-channel DSPE devices. Drive currents and subthreshold slopes also showed significant improvement in both n- and p-devices. Propagation delays below 75 ps were obtained for CMOS/SOS inverters with Loff= 0.5 µm. The application of DSPE and SPEAR techniques to 0.3-µm SOS films will extend the scaling of CMOS/SOS to circuits with VLSI complexity.

[1] E. H. Nicollian,et al. Generalized guide for MOSFET miniaturization , 1980, IEEE Electron Device Letters.

[2] H. Schlötterer. Mechanical and electrical properties of epitaxial silicon films on spinel , 1968 .

[3] M. S. Abrahams,et al. Direct Observation of the Structure of Thin, Commercially Useful Silicon on Sapphire Films by Cross Section Transmission Electron Microscopy , 1977 .

[4] Tomoyasu Inoue,et al. Crystalline disorder reduction and defect‐type change in silicon on sapphire films by silicon implantation and subsequent thermal annealing , 1980 .

[5] David M. Buss. Technology and Design Challenges of MOS VLSI , 1981, ESSCIRC '81: 7th European Solid State Circuits Conference.

[6] H. Tango,et al. Feasibility Study of SOS VLSI: Capacitance Analysis in Downward Scaling and Improvement of Thin Films by a Solid-Phase Epitaxy , 1981, 1981 Symposium on VLSI Technology. Digest of Technical Papers.

[7] G. W. Cullen,et al. Measurement of the near-surface crystallinity of silicon on sapphire by UV reflectance , 1982 .

[8] M. Nicolet,et al. Electrical properties of silicon-implanted furnace-annealed silicon-on-sapphire devices , 1979 .