Add to ORKGDeep etching of GaAs is a critical process step required for many device applications including fabrication of through-substrate via holes for monolithic microwave integrated circuits (MMICs). Use of high-density plasmas, including inductively coupled plasmas (ICP), offers an alternative approach to etching vias as compared to more conventional parallel plate reactive ion etch systems. This paper reports ICP etching of GaAs vias at etch rates of about 5.3 {mu}m/min with via profiles ranging from highly anistropic to conical
Abstract: GaAs etch characteristics like etch rate, etch profile sidewall angle, etch surface morpho...
For the last several years, there has been great interest in InP HBTs due to the attractive properti...
Deep etched structures in GaAs with high aspect ratio have promising applications in optoelectronics...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
Dry etching of InP using a C12/Ar plasma generated by an electron cyclotron resonance source has bee...
InP-based devices have shown great potential in realizing high-speed Monolithic Millimeter-wave Inte...
Damage free etching is required for the gate etching process in GaAs IC fabrication. While inductive...
High density plasma etching of GaAs, GaSb and AIGaAs was performed in IC1/Ar and lBr/Ar chemistries ...
Inductively Coupled Plasma (ICP) sources are extremely promising for large-area, high-ion density et...
To meet the needs of nanometer scale device fabrication, dry etch technology has been developed. The...
To meet the needs of nanometer scale device fabrication, dry etch technology has been developed. The...
Abstract: GaAs etch characteristics like etch rate, etch profile sidewall angle, etch surface morpho...
For the last several years, there has been great interest in InP HBTs due to the attractive properti...
Deep etched structures in GaAs with high aspect ratio have promising applications in optoelectronics...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
This study investigates the dry etching of 60 mm dia, 200 mm deep holes for fabrication of through s...
Dry etching of InP using a C12/Ar plasma generated by an electron cyclotron resonance source has bee...
InP-based devices have shown great potential in realizing high-speed Monolithic Millimeter-wave Inte...
Damage free etching is required for the gate etching process in GaAs IC fabrication. While inductive...
High density plasma etching of GaAs, GaSb and AIGaAs was performed in IC1/Ar and lBr/Ar chemistries ...
Inductively Coupled Plasma (ICP) sources are extremely promising for large-area, high-ion density et...
To meet the needs of nanometer scale device fabrication, dry etch technology has been developed. The...
To meet the needs of nanometer scale device fabrication, dry etch technology has been developed. The...
Abstract: GaAs etch characteristics like etch rate, etch profile sidewall angle, etch surface morpho...
For the last several years, there has been great interest in InP HBTs due to the attractive properti...
Deep etched structures in GaAs with high aspect ratio have promising applications in optoelectronics...