Specific Process Knowledge/Thermal Process/D4 III-V Oven: Difference between revisions

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===<span style="color:Red">EXPIRED. The D4 III-V Oven has been removed from the cleanroom August 2019. At the moment there is not replacement for it.</span>===


[[Category: Equipment |Thermal III-V ]]
[[Category: Equipment |Thermal III-V ]]
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==III-V Oven (D4)==
==III-V Oven (D4)==
[[Image:IIIV_Oven.jpg|thumb|450x450px|III-V Oven (D4). Positioned in cleanroom area F-3.]]
[[Image:IIIV_Oven.jpg|thumb|450x450px|III-V Oven (D4). Positioned in cleanroom area F-3/ Photo: DTU Nanolab internal.]]


The III-V Oven (D4) is used for wet thermal oxidation of III-V devices, for instance for lateral oxidation of thin AlGaAs layers to defined apertures in light-limiting diodes.  
The III-V Oven (D4) is used for wet thermal oxidation of III-V devices, for instance for lateral oxidation of thin AlGaAs layers to defined apertures in light-limiting diodes.  

Latest revision as of 13:00, 17 April 2023

Feedback to this page: click here

This page is written by DTU Nanolab internal

EXPIRED. The D4 III-V Oven has been removed from the cleanroom August 2019. At the moment there is not replacement for it.

III-V Oven (D4)

III-V Oven (D4). Positioned in cleanroom area F-3/ Photo: DTU Nanolab internal.

The III-V Oven (D4) is used for wet thermal oxidation of III-V devices, for instance for lateral oxidation of thin AlGaAs layers to defined apertures in light-limiting diodes.

The furnace is an old Tempress horizontal furnace. The quartz boat is loaded manually into the furnace by use of a push rod. The furnace is cooled down to room temperature when it is not being used.

Before use, devices have to be cleaned. A short BHF dip can be used to remove any native oxide which can be difficult to penetrate by a wet thermal oxidation.

Please check the cross contamination information in LabManager before you use the furnace.

The user manual and contact information can be found in LabManager:

III-V Oven (D4)

Process knowledge


Overview of the performance of the III-V Oven and some process related parameters

Purpose
  • Wet oxidation of III-V dvices
Performance Lateral oxidation rate
  • Very sample dependent
Process parameter range Process temperature
  • 420 oC
Process pressure
  • 1 atm
Gasses on the system
  • N2 (bobler)
  • N2
Substrates Batch size
  • Several smaller samples (placed vertically on a quartz plate)
Substrate materials allowed
  • III-V devices
  • Silicon