Title :
Deep submicron technology and applications
Author_Institution :
Microelectron. Res. & Dev. Center, Acad. Sinica, Beijing, China
Abstract :
A variety of deep submicron technologies have been developed in the project “Deep Submicron structure and Mesoscopic physics”. A 93 nm linewidth pattern and a 0.3 μm PHEMT were obtained by X-ray lithography with a synchrotron radiation source in BEPC NL. 0.1 μm resolution was attained by electron beam lithography, which was performed in a modified NEC S-530 scanning electron microscope system. Microdisk lasers were fabricated by E-Beam direct writing combined with selective chemical etching processing. In addition, we successfully investigated an ICP dry etching system with a high density plasma and obtained a 0.4 μm linewidth pattern. E-Beam doping is a new method to obtain 0.1 μm shallow junction depth. We successfully apply the above technology and other alternative approaches for manufacture of 0.2 μm Si MOSFET´s, a 0.3 μm PHEMT, a vacuum microelectronic diode array, etc. Adopted PECVD and Ar+ laser recrystallization technology combined with SiNx barrier Si quantum micro crystals of nm size and photoluminescence were obtained
Keywords :
semiconductor technology; Ar+ laser recrystallization; BEPC NL; ICP dry etching; MOSFET; NEC S-530 scanning electron microscope; PECVD; PHEMT; Si; SiNx barrier Si quantum microcrystals; X-ray lithography; deep submicron technology; e-beam direct writing; e-beam doping; electron beam lithography; mesoscopic physics; microdisk laser; photoluminescence; selective chemical etching; shallow junction; synchrotron radiation source; vacuum microelectronic diode array; Chemical lasers; Electron beams; Laser theory; National electric code; PHEMTs; Scanning electron microscopy; Synchrotron radiation; Writing; X-ray lasers; X-ray lithography;
Conference_Titel :
Solid-State and Integrated Circuit Technology, 1995 4th International Conference on
Conference_Location :
Beijing
Print_ISBN :
0-7803-3062-5
DOI :
10.1109/ICSICT.1995.503379
