Add to ORKGWe present a comparative study of the effects of low power reactive ion etching (RIE) on GaN and InN. This new, highly chemical, dry etching, using CF4 and Ar, has been developed for thin nitride films grown at low temperature in our laboratories. GaN films were grown by remote plasma enhanced-laser induced chemical vapor deposition and InN films were grown by radio-frequency RF reactive sputtering. Commercial GaN samples were also examined. Optical and electrical characteristics of the films are reported before and after removing 100 to 200 nm of the film surface by RIE. We have previously shown that the GaN films, although polycrystalline after growth, may be re-crystallized below the growth temperature. Removal of the surface oxide has b...
Etch rates for binary nitrides in ECR Cl{sub 2}/CH{sub 4}/H{sub 2}/Ar are reported as a function of ...
Plasma-induced damage of n-Type GaN in Cl-2/CH4/Ar reactants and its recovery by the O-2/CHF3 plasma...
ent o Indium nitride thin films for potential application in high power, high frequency devices have...
Abstract: A highly chemical reactive ion etching process has been developed for MOVPE-grown GaN on s...
A highly chemical reactive ion etching process has been developed for MOVPE-grown GaN on sapphire. T...
A highly chemical reactive ion etching process has been developed for MOVPE-grown GaN on sapphire. T...
FABRICATION OF GROUP III NITRIDE DEVICES RELIES ON THE ABILITY TO PATTERN FEATURES TO DEPTHS RANGING...
Gallium nitride and indium nitride films have been grown by remote plasma enhanced chemical vapor de...
As III-V nitride device structures become more complicated and design rules shrink, well-controlled ...
Photoluminescence (PL) has been successfully applied to study the optical properties of GaN. The PL ...
The controlled growth of thin films of the group-III nitride semiconductors GaN and InN is vigorousl...
GaN and related materials keep drawing attention because of their successful application in light em...
The chemical inertness and high bond strengths of the III-V nitrides lead to slower plasma etching r...
The characteristics of the reactive ion etching (RIE) of gallium nitride (GaN) have been investigate...
The group III-nitrides continue to generate interest due to their wide band gaps and high dielectric...
Etch rates for binary nitrides in ECR Cl{sub 2}/CH{sub 4}/H{sub 2}/Ar are reported as a function of ...
Plasma-induced damage of n-Type GaN in Cl-2/CH4/Ar reactants and its recovery by the O-2/CHF3 plasma...
ent o Indium nitride thin films for potential application in high power, high frequency devices have...
Abstract: A highly chemical reactive ion etching process has been developed for MOVPE-grown GaN on s...
A highly chemical reactive ion etching process has been developed for MOVPE-grown GaN on sapphire. T...
A highly chemical reactive ion etching process has been developed for MOVPE-grown GaN on sapphire. T...
FABRICATION OF GROUP III NITRIDE DEVICES RELIES ON THE ABILITY TO PATTERN FEATURES TO DEPTHS RANGING...
Gallium nitride and indium nitride films have been grown by remote plasma enhanced chemical vapor de...
As III-V nitride device structures become more complicated and design rules shrink, well-controlled ...
Photoluminescence (PL) has been successfully applied to study the optical properties of GaN. The PL ...
The controlled growth of thin films of the group-III nitride semiconductors GaN and InN is vigorousl...
GaN and related materials keep drawing attention because of their successful application in light em...
The chemical inertness and high bond strengths of the III-V nitrides lead to slower plasma etching r...
The characteristics of the reactive ion etching (RIE) of gallium nitride (GaN) have been investigate...
The group III-nitrides continue to generate interest due to their wide band gaps and high dielectric...
Etch rates for binary nitrides in ECR Cl{sub 2}/CH{sub 4}/H{sub 2}/Ar are reported as a function of ...
Plasma-induced damage of n-Type GaN in Cl-2/CH4/Ar reactants and its recovery by the O-2/CHF3 plasma...
ent o Indium nitride thin films for potential application in high power, high frequency devices have...