Specific Process Knowledge/Etch/DRIE-Pegasus: Difference between revisions

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  <!-- *[[Specific Process Knowledge/Etch/DRIE-Pegasus/VeeryDeeep| Very deep etching]] -->
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'''Advanced Processing - Henri Jansen stile'''
'''Advanced Processing - Henri Jansen style'''
*[[/Advanced Processing|Details on Advanced processing - Henri Jansen stile Click here]]
*[[/Advanced Processing|Details on Advanced processing - Henri Jansen style Click here]]


'''Wafer bonding'''
'''Wafer bonding'''

Revision as of 10:25, 19 November 2015

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The DRIE Pegasus at Danchip

The SPTS Pegasus in the Danchip cleanroom A-1

The Bosch process

The DRIE Pegasus is a state-of-art silicon dry etcher that offers outstanding performance in terms of etch rate, uniformity etc. It uses the so-called Bosch process to achieve excellent control of the etched features. Click here for more fundamental information of the system.

Change of showerhead in December 2014

The showerhead that distributes the process gasses inside the plasma source has been changed. With the new design the gas flow resistance in the gas line from MFC to plasma has been reduced. This has very little or no impact on processes that have a continuous gas flow - i.e. processes that are not switched. However, for processes with several gas flows that switch on and off, the switching from one gas flow to another will be much more well defined. This enables us to run Bosch processes with shorter cycles times. Shorter cycles times means smaller scallops and hence lower roughness and better control.

As stated, we believe that only switched processes will be affected by this change. Continuous processes such as Process C, Nano1.42, isotropic etches, barc etches or the black silicon recipes are not believed to be noticeably affected.

Click HERE to see a comparison of some the etches before and after the change of the showerhead.


The user manual(s), quality control procedure(s) and results, user APV(s), technical information and contact information can be found in LabManager:

Equipment info in LabManager

Process information

Process notation

Describing a process recipe on the Pegasus may sometimes be difficult because of the great flexibility of the instrument. A compact and precise notation is therefore required for the recipes. Click here to find a short description of the official SPTS notation.

Standard recipes

Other etch processes

More processes, such as for DUV resist, are currently being developed, but they are not quite 'ready for publication' at LabAdviser so please contact Jonas (mailto:jml@danchip.dtu.dk) for more information.



Advanced Processing - Henri Jansen style

Wafer bonding

To find information on how to bond wafers or chips to a carrier wafer, click here.

Acceptance test

The instrument was opened for users in April 2010 when the acceptance test was signed. This was based on the performance of five standard recipes (A, B, C, D and SOI) that are further examined below. The acceptance test report is found here.

Characterisation of etched trenches

Comparing differences in etched trenches requires a set of common parameters for each trench. Click here to find more information about the parameters used on the DRIE-Pegasus process development.

Material from SPTS

Internal Danchip Process log

Process log at Danchip [1]

Equipment performance and process related parameters

Equipment DRIE-Pegasus
Purpose Dry etch of
  • Silicon
  • Barc
Performance Etch rates
  • Standard processes A and B up to 15 µm/min depending on etch load and feature size
  • Other processes: Any number from 200 nm/min to 10 µm/min
Uniformity
  • For standard processes better than 3 % across a 150 mm wafer.
Process parameter range RF powers
  • Coil Power 5 kW
  • Platen power 300/500 W (HF/LF)
Gas flows
  • SF6: 0 to 1200 sccm
  • O2: 0 to 200 sccm
  • C4F8: 0 to 400 sccm
  • Ar: 0 to 283 sccm
Pressure and temperature
  • Pressure range 4 to 250 mTorr
  • Temperature range -20 to 30 degrees C
Process options
  • Bosch processes with etch and dep cycles possibly split into three individually controllable parts
  • Parameter ramping during process steps
  • SOI option to reduce notching at buried
Substrates Batch size
  • # small samples on carriers
  • # 50 mm wafers: Bonded to carriers
  • # 100 mm wafers: Up to 18 wafers in a batch process
  • # 150 mm wafers: 1 wafer
Allowed materials
  • Silicon wafers
  • Quartz wafers need a (semi)conducting layer for clamping
Possible masking materials
  • AZ photoresist
  • zep resist
  • DUV stepper resist (barc + krf)
  • Oxides and nitrides
  • Aluminium (only very mild processes such as process C and nanoetches)