Title :
Atomically controlled processing for future Si-based devices
Author :
Murota, Junichi ; Sakuraba, Masao ; Takehiro, Shinobu
Author_Institution :
Lab. for Electron. Intelligent Syst., Tohoku Univ., Sendai, Japan
Abstract :
One of the main requirements for Si-based ultrasmall devices is atomic-order control of process technology. Here we show the concept of atomically controlled processing, based on atomic-order surface reaction control. Self-limiting formation of 1-3 atomic layers of group IV or related atoms in the thermal adsorption and reaction of hydride gases (SiH4, GeH4, NH3, PH3, CH4 and SiH3CH3) on Si(100) and Ge(100) are generalized, based on the Langmuir-type model. Si epitaxial growth over the N and P layer already-formed on the Si(100) surface is achieved. It is found that a higher level of electrical P atoms exist in such films, compared with doping under thermal equilibrium conditions. These results open the way to atomically controlled technology for ultralarge-scale integrations.
Keywords :
Langmuir-Blodgett films; adsorbed layers; ammonia; atomic layer epitaxial growth; chemical vapour deposition; elemental semiconductors; germanium; germanium compounds; phosphorus compounds; semiconductor doping; silicon compounds; surface chemistry; CH4; Ge; Ge(100); GeH4; Langmuir-type model; NH3; PH3; Si; Si(100); Si-based devices; SiH3CH3; SiH4; atomic layer doping; atomic layer self-limiting formation; atomic layer-by-layer epitaxy; atomic-order process technology control; atomic-order surface reaction control; atomically controlled processing; chemical vapor deposition; epitaxial growth; methane; thermal adsorption; ultrasmall devices; Atomic layer deposition; Chemical technology; Chemical vapor deposition; Communication system control; Control systems; Doping; Epitaxial growth; Gases; MOSFETs; Process control;
Conference_Titel :
Microelectronics and Electron Devices, 2004 IEEE Workshop on
Print_ISBN :
0-7803-8369-9
DOI :
10.1109/WMED.2004.1297343
