Title :
Feasibility of SAB using Nano-adhesion Layer for Low Temperature GaN Wafer Bonding
Author :
Suga, Tadatomo ; Wakamatsu, Tsuguharu ; Akaike, Masatake ; Shigetou, Akitsu ; Higurashi, Eiji
Author_Institution :
Tokyo Univ., Tokyo
fDate :
May 29 2007-June 1 2007
Abstract :
GaN wafer bonding has been developed using conventional fusion techniques at high temperature. However, the future integration of complex 3D or photonic devices, a low temperature bonding technique, should be developed. Using the surface activated bonding (SAB) method, we demonstrated that surface activation by Ar fast atom beam irradiation is effective for room temperature bonding of GaN to Al, Si, and GaN. Because Ar atom irradiation of the GaN surface induces a modified layer revealing a Ga-Ga bond over an approximately 0.6 nm thickness, and an exposure of the surface to residual gases longer than 1.7xl0-4 Pa s leads to re-oxidation of the activated surface which results in a drastic decrease of the bond strength, it is concluded that a nano-layer enriched by Ga on the GaN surface may contribute to the formation of direct GaN wafer bonding at room temperature.
Keywords :
gallium arsenide; integrated optics; wafer bonding; wide band gap semiconductors; Al; Ar; GaN; GaN wafer bonding; Si; activated surface reoxidation; atom beam irradiation; fusion techniques; low temperature bonding technique; nanoadhesion layer; photonic devices; room temperature bonding; surface activated bonding method; Argon; Atomic beams; Atomic layer deposition; Cleaning; Gallium nitride; Ion beams; Iron; Photonic crystals; Plasma temperature; Wafer bonding;
Conference_Titel :
Electronic Components and Technology Conference, 2007. ECTC '07. Proceedings. 57th
Conference_Location :
Reno, NV
Print_ISBN :
1-4244-0985-3
Electronic_ISBN :
0569-5503
DOI :
10.1109/ECTC.2007.374043
