Free standing GaN nano membrane by laser liftoff method
نویسندگان
چکیده
In this work, we present a method able to fabricate thin GaN nanomembranes fit for device applications. Starting from commercial GaN on sapphire substrates, MBE was used to deposit a sacrificial layer, which comprises of a superlattice of InN/InGaN, after which thin a GaN film of hundreds of nanometers thickness was grown on top. Pulsed laser irridiation with photon energy of 2.3eV gives rise to the controlled decomposition of the sacrificial intermediate layer, which can be followed by easy separation of the top GaN membrane from the substrate. This process can be used to manufacture GaN membranes with low defect density and a wider range of thickness. We demonstrated that large area, free-standing GaN membranes, with a thickness from 200nm and up, could be made using this method, and the high crystal quality of the lift-off GaN layers is well preserved in this process.
منابع مشابه
SELECTIVE UV-LASER PROCESSING FOR LIFT-OFF OF GaN THIN FILMS FROM SAPPHIRE SUBSTRATES
Gallium nitride (GaN) thin films on sapphire substrates were successfully separated and transferred onto Si substrates by pulsed UVlaser processing. A single 600 mJ/cm, 38 ns KrF excimer laser pulse was directed through the transparent substrate to induce a rapid thermal decomposition of the GaN at the GaN/sapphire interface. The decomposition yields metallic Ga and N2 gas that allows separatio...
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Attempts to commercialize GaN VCSELs have been unsuccessful to date due to the challenges of manufacturability of DBR mirrors, difficulties associated with current blocking, and the complexity of laser liftoff. The new process flow overcomes all three challenges enabling the manufacturing of IIINitride VCSEL without liftoff and with much reduced complexity and the possibility of on-wafer testing.
متن کاملA Method for a GaN Vertical Microcavity Surface Emitting Laser (VCSEL) that is compatible with conventional LED processing
Attempts to commercialize GaN VCSELs have been unsuccessful to date due to the challenges of manufacturability of DBR mirrors, difficulties associated with current blocking, and the complexity of laser liftoff. The new process flow overcomes all three challenges enabling the manufacturing of IIINitride VCSEL without liftoff and with much reduced complexity and the possibility of on-wafer testing.
متن کاملA Method for a GaN Vertical Microcavity Surface Emitting Laser (VCSEL) that is compatible with conventional LED processing
Attempts to commercialize GaN VCSELs have been unsuccessful to date due to the challenges of manufacturability of DBR mirrors, difficulties associated with current blocking, and the complexity of laser liftoff. The new process flow overcomes all three challenges enabling the manufacturing of IIINitride VCSEL without liftoff and with much reduced complexity and the possibility of on-wafer testing.
متن کاملA Method for a GaN Vertical Microcavity Surface Emitting Laser (VCSEL) that is compatible with conventional LED processing
Attempts to commercialize GaN VCSELs have been unsuccessful to date due to the challenges of manufacturability of DBR mirrors, difficulties associated with current blocking, and the complexity of laser liftoff. The new process flow overcomes all three challenges enabling the manufacturing of IIINitride VCSEL without liftoff and with much reduced complexity and the possibility of on-wafer testing.
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