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

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'''Feedback to this page:  
'''Feedback to this page:  
[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php/Specific_Process_Knowledge/Etch/DRIE-Pegasus click here]'''
[mailto:labadviser@nanolab.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.nanolab.dtu.dk/index.php/Specific_Process_Knowledge/Etch/DRIE-Pegasus click here]'''
[[Category: Equipment |Etch DRIE]]
[[Category: Equipment |Etch DRIE]]
[[Category: Etch (Dry) Equipment|DRIE]]
[[Category: Etch (Dry) Equipment|DRIE]]


= The DRIE Pegasus tools at DTU Nanolab =
{{Template:Author-jmli1}}
<!--Checked for updates on 2/02-2023 - ok/jmli -->


= The DRIE Pegasus tools at Danchip =
In 2010 DTU Nanolab acquired DRIE-Pegasus 1 (at the time called Danchip and DRIE-Pegasus, respectively). As a state-of-the-art etch tool with excellent performance and great flexibility, it grew immensely popular and by 2015 it was apparent that we needed yet another tool to cope with the demand. Therefore, in 2016 Pegasus 2 was acquired from a closed-down lab and installed next to Pegasus 1.


In 2010 Danchip acquired DRIE-Pegasus 1 (at the time called DRIE-Pegasus). As a state-of-the-art etch tool with excellent performance and great flexibility, it grew immensely popular and by 2015 it was apparent that we needed yet another tool to cope with the demand. Therefore, in 2016 Pegasus 2 was acquired from a closed-down lab in Morocco and installed next to Pegasus 1.
Looking to expand our dry etching capabilities in 2017 we got an irresistible offer on a twin Pegasus system with cassette to cassette vacuum robot from a commercial fab. The twin Pegasus system (called Pegasus 3 and 4) is installed at the old cluster 2 location in cleanroom C1 and will run only 6" wafers. Pegasus 3 is the 6" silicon etch work horse and Pegasus 4 is converted (adding extra process gases) into a 6" dielectric etch tool that will supplement/replace the AOE.  


Looking to expand our dry etching capabilities in 2017 we got an irresistible offer on a twin Pegasus system with cassette to cassette vacuum robot from a commerciel fab. The twin Pegasus system (will be called Pegasus 3 and 4) will be installed at the old cluster 2 location in cleanroom C1 from August 2018 onwards. We intend to use one chamber as 6" silicon etch work horse and the other to be converted (adding extra process gases) into a 6" dielectric etch tool that will supplement/replace the AOE.
This page was originally intended as a regular one-machine page (the Pegasus 1 page). However, as of 2018 with several tools, the page will serve as common page for all of our Pegasi with subpages for each tool.


{|
{|
| [[Image:DRIE-Pegasus.jpg |frame|left|x300px|The DRIE-Pegasus 1 load lock and cassette loader in the Danchip cleanroom A-1]]
|width="200"| [[file:DRIE-Pegasus.jpg |200px|frameless]]
| [[Image:Pegasus 2 operator.jpg |frame|x300px|The DRIE-Pegasus 2 operator station and load lock in the Danchip cleanroom A-1]]
| width="400"| [[file:Pegasus 2 operator.jpg |408px|frameless]]
| [[Image:Twinx.jpg |frame|x300px|The twin Pegasi (3 and 4) have just been rolled into the lab on July 3rd 2018 ]]
| width="550"|[[file:Peg3and4 front 2.JPG |584px|frameless]]
|-
|-  
| align="center" | DRIE-Pegasus 1
| align="center" | The DRIE-Pegasus 1 load lock and cassette loader in the DTU Nanolab cleanroom A-1. {{photo1}}
| align="center" | DRIE-Pegasus 2
| align="center" | The DRIE-Pegasus 2 operator station and load lock in the DTU Nanolab cleanroom A-1. {{photo1}}
| align="center" | Soon to be Pegasus 3 and 4
| align="center" | The DRIE-Pegasus3 and DRIE-Pegasus4 operator station and cassette loading stations. {{photo1}}
|-
|-
| align="center" | Serial MP0636
| align="center" | Serial MP0641
| align="center" | Serial CP
|}
|}


== The Bosch process ==
== The Bosch process ==


The DRIE Pegasus tools are state-of-art silicon dry etchers that offer outstanding performance in terms of etch rate, uniformity etc. They use the so-called Bosch process to achieve excellent control of the etched features. Click [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description|'''HERE''']] for more fundamental information of the system. As of 2017, completing the [[LabAdviser/Courses#The_Dry_Etch_TPT | Dry Etch TPT course]] is mandatory for all new users. On the TPT web page you will find a version of the latest lecture slides - here you will find information as well.
The DRIE Pegasus tools are state-of-art silicon dry etchers that offer outstanding performance in terms of etch rate, uniformity etc. They use the so-called Bosch process to achieve excellent control of the etched features. Click [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description|'''HERE''']] to access the top of the page. The contents are:
# [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description#Description_of_the_Bosch_process_at_the_DRIE-Pegasus| Description of the Bosch process ]]
# [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description#Processing_options_on_the_Pegasus | Processing options on the Pegasus ]]
# [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description#Modification_of_the_showerhead | Modification of the showerhead ]]
# [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description#RF_Matching | RF matching ]]
## [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description#RF_matching_in_general | RF matching in general ]]
## [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/System-description#Why_RF_matching_is_extremely_important_in_the_Bosch_process | Why RF matching is extremely important in the Bosch process ]]
# [[Specific Process Knowledge/Etch/DRIE-Pegasus/picoscope|Picoscope process monitoring]]
As of 2017, completing the [[LabAdviser/Courses/TPT_Dry_Etch| Dry Etch TPT course]] is mandatory for all new users. On the TPT web page you will find a version of the latest lecture slides - here you will find information as well.


== Links to the individual pages for the Pegasi ==
== Links to the individual pages for the Pegasi ==
Line 33: Line 41:
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-1|DRIE-Pegasus 1]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-1|DRIE-Pegasus 1]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-2|DRIE-Pegasus 2]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-2|DRIE-Pegasus 2]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-3|DRIE-Pegasus 3 - installation in progress]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-3|DRIE-Pegasus 3]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-4|DRIE-Pegasus 4 - installation in progress]]
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Pegasus-4|DRIE-Pegasus 4]]


==Equipment performance and process related parameters==
==Equipment performance and process related parameters==


{| border="2" cellspacing="0" cellpadding="2"  
{| border="2" cellspacing="0" cellpadding="1"  


!colspan="2" border="none" style="background:silver; color:black;" align="center" |Equipment  
!colspan="2" border="none" style="background:silver; color:black;" align="center"|Equipment  
|style="background:silver; color:black" width="250" align ="center" |[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-1| '''DRIE-Pegasus 1''']]
|style="background:silver; color:black" width="250" align ="center" |[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-1| '''DRIE-Pegasus 1''']]
|style="background:silver; color:black" width="250" align ="center" |[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-2| '''DRIE-Pegasus 2''']]
|style="background:silver; color:black" width="250" align ="center" |[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-2| '''DRIE-Pegasus 2''']]
Line 46: Line 54:
|style="background:silver; color:black" width="250" align ="center" |[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-4| '''DRIE-Pegasus 4''']]
|style="background:silver; color:black" width="250" align ="center" |[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-4| '''DRIE-Pegasus 4''']]
|-
|-
!style="background:silver; color:black;" align="center" valign="center" width="150" rowspan="2"|Purpose  
!style="background:silver; color:black;" align="center" valign="center" width="100" rowspan="2"|Purpose  
|style="background:Whitesmoke; color:black" width="80 | Primary
|style="background:Whitesmoke; color:black" width="80" | Primary
|style="background:WhiteSmoke; color:black"|  
|style="background:WhiteSmoke; color:black"|  
* Dry etching of 4" silicon  
* Dry etching of 4" silicon  
Line 66: Line 74:
* ?
* ?
|style="background:LightGrey; color:black"|
|style="background:LightGrey; color:black"|
* ?
* silicon
|-
|-
!style="background:silver; color:black" align="center" valign="center" rowspan="2"|Performance
!style="background:silver; color:black" align="center" valign="center" rowspan="2"|Performance
Line 78: Line 86:
* ?
* ?
|style="background:WhiteSmoke; color:black"|
|style="background:WhiteSmoke; color:black"|
* ?
* Depending on the recipe
|-
|-
|style="background:LightGrey; color:black"|Uniformity
|style="background:LightGrey; color:black"|Uniformity
Line 88: Line 96:
* ?
* ?
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black"|
* ?
* Depending on the recipe
|-
|-
!style="background:silver; color:black" align="center" valign="center" rowspan="4"|Process parameter range
!style="background:silver; color:black" align="center" valign="center" rowspan="4"|Process parameter range
Line 112: Line 120:
* Ar: 0 to 283 sccm
* Ar: 0 to 283 sccm
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black"|
* SF<sub>6</sub>: 0 to 1200 sccm
* SF<sub>6</sub>-1: 0 to 1200 sccm
* SF<sub>6</sub>-2: 0 to 100 sccm
* O<sub>2</sub>: 0 to 50 sccm
* N<sub>2</sub>: 0 to 500 sccm
* Ar: 0 to 283 sccm
* He: 0 to 11 sccm
|style="background:lightgrey; color:black"|
* SF<sub>6</sub>-1: 0 to 1200 sccm
* SF<sub>6</sub>-2: 0 to 100 sccm
* O<sub>2</sub>: 0 to 200 sccm
* O<sub>2</sub>: 0 to 200 sccm
* C<sub>4</sub>F<sub>8</sub>: 0 to 400 sccm
* C<sub>4</sub>F<sub>8</sub>: 0 to 400 sccm
* Ar: 0 to 283 sccm
* Ar: 0 to 283 sccm
|style="background:lightgrey; color:black"|
* SF<sub>6</sub>
* O<sub>2</sub>
* C<sub>4</sub>F<sub>8</sub>
* Ar
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black"|
{|
{|
| width="50"| SF<sub>6</sub>
*SF<sub>6</sub>: ?(<20) sccm
| width="50"| O<sub>2</sub>
*O<sub>2</sub>: 200 sccm
| width="50"| C<sub>4</sub>F<sub>8</sub>
*C<sub>4</sub>F<sub>8</sub>: 400 sccm
|-
*Ar: 283 sccm
| width="50"| Ar
*He: 500 sccm
| width="50"| He
*CF<sub>4</sub>: 100 sccm
| width="50"| CF<sub>4</sub>
*H2: 100 sccm
|-
| width="50"| H<sub>2</sub>
|
|
|
|
Line 154: Line 163:
* Bosch processes with etch and dep cycles each split into three
* Bosch processes with etch and dep cycles each split into three
* Parameter ramping during process steps
* Parameter ramping during process steps
* SOI option to reduce notching at buried  
* SOI option to reduce notching at buried oxide layers
* Picoscope monitoring
* Picoscope monitoring
* Claritas endpoint detection system
* Claritas endpoint detection system
Line 160: Line 169:
* Bosch processes with etch and dep cycles each split into three
* Bosch processes with etch and dep cycles each split into three
* Parameter ramping during process steps
* Parameter ramping during process steps
* SOI option to reduce notching at buried  
* SOI option to reduce notching at buried oxide layers
* Picoscope monitoring
* Picoscope monitoring
* Verity OES
* Verity OES
Line 166: Line 175:
* Bosch processes with etch and dep cycles each split into three
* Bosch processes with etch and dep cycles each split into three
* Parameter ramping during process steps
* Parameter ramping during process steps
* Picoscope monitoring
* SOI option to reduce notching at buried oxide layers
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black"|
* Bosch processes with etch and dep cycles each split into three
* Bosch processes with etch and dep cycles each split into three
* Parameter ramping during process steps
* Parameter ramping during process steps
* Verity OES
|-
|-
!style="background:silver; color:black" align="center" valign="center" rowspan="4"|Substrates
!style="background:silver; color:black" align="center" valign="center" rowspan="4"|Substrates
Line 188: Line 200:
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black"|
* Load lock
* Load lock
* MACS
* MACS (Multiplex Atmospheric Cassette System)
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black"|
* Load lock
* Load lock
|style="background:lightgrey; color:black"|
|style="background:lightgrey; color:black" colspan="2"|
* Vacuum cassette loader
* Vacuum cassette loader with two cassette stations and shared dealer chamber with Brooks robot
|style="background:lightgrey; color:black"|
* Vacuum cassette loader
|-
|-
| style="background:Whitesmoke; color:black"|Allowed materials
| style="background:Whitesmoke; color:black"|Allowed materials
Line 232: Line 242:
* zep resist
* zep resist
* DUV stepper resist (barc + krf)
* DUV stepper resist (barc + krf)
* Oxides and nitrides
* Silicon,Oxides and nitrides
* Al, Cr masks
|-
|-
|}
|}
Line 238: Line 249:
== Process information ==
== Process information ==


===SPTS process notation===
===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 [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Notation|'''HERE''']] to find a short description.
 
 
 
 


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 [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/Notation|'''HERE''']] to find a short description of the official SPTS notation.


===Hardware changes===
===Hardware changes===


A few hardware modifications have been made on the Pegasus since it was installed in 2010. The changes are listed in the table below under hardware options.
A few hardware modifications have been made on the Pegasus 1 since it was installed in 2010. The changes are listed in the table below under hardware options.




Line 257: Line 273:
| style="background:lightgrey; color:black" | 2010
| style="background:lightgrey; color:black" | 2010
| style="background:lightgrey; color:black" | 2010
| style="background:lightgrey; color:black" | 2010
| style="background:lightgrey; color:black" | ?
| style="background:lightgrey; color:black" | 2010
| style="background:lightgrey; color:black" | ?
| style="background:lightgrey; color:black" | 2010
|- valign="top"
|- valign="top"
! style="background:Whitesmoke; color:black" | Serial
! style="background:Whitesmoke; color:black" | Serial
! style="background:WhiteSmoke; color:black" | MP0636
| style="background:WhiteSmoke; color:black" | MP0636
| style="background:WhiteSmoke; color:black"| MP0641
| style="background:WhiteSmoke; color:black"| MP0641
| style="background:WhiteSmoke; color:black"| CP0170
| style="background:WhiteSmoke; color:black"| CP0170
Line 279: Line 295:
| style="background:WhiteSmoke; color:black"|
| style="background:WhiteSmoke; color:black"|
* [[Specific Process Knowledge/Etch/DRIE-Pegasus/showerheadchange|High flow plenum]]
* [[Specific Process Knowledge/Etch/DRIE-Pegasus/showerheadchange|High flow plenum]]
| style="background:WhiteSmoke; color:black"| ?
* [[Specific Process Knowledge/Etch/DRIE-Pegasus/picoscope|Picoscope oscilloscope]]
| style="background:WhiteSmoke; color:black"|  
* [[Specific Process Knowledge/Etch/DRIE-Pegasus/showerheadchange|High flow plenum]]
* [[Specific Process Knowledge/Etch/DRIE-Pegasus/picoscope|Picoscope oscilloscope]]
| style="background:WhiteSmoke; color:black"| ?
| style="background:WhiteSmoke; color:black"| ?
|-
|-
Line 294: Line 313:
==Characterisation of etched trenches==
==Characterisation of etched trenches==


The trenches in deep silicon trenches can be characterized in many ways. Being able to compare processes requires that a set of common measurements and calculations must be established. Click [[Specific Process Knowledge/Etch/DRIE-Pegasus/TrenchCharacterisation|'''HERE''']] to find more information about the parameters used on the DRIE-Pegasus process development.
The trenches in deep silicon trenches can be characterized in many ways. Being able to compare processes requires that a set of common measurements and calculations must be established. Click '''HERE''' to find more information about the parameters used on the DRIE-Pegasus process developme[[Specific Process Knowledge/Etch/DRIE-Pegasus/TrenchCharacterisation|nt]].
 
==Material from SPTS==
 
*[[Specific Process Knowledge/Etch/DRIE-Pegasus/SPTSdocs|Hardware and process applications]]
 
*[[Specific Process Knowledge/Etch/DRIE-Pegasus/FAQ|Miscellaneous information]]

Latest revision as of 14:28, 21 December 2023

Feedback to this page: click here

The DRIE Pegasus tools at DTU Nanolab

Unless otherwise stated, all content on this page was created by Jonas Michael-Lindhard, DTU Nanolab

In 2010 DTU Nanolab acquired DRIE-Pegasus 1 (at the time called Danchip and DRIE-Pegasus, respectively). As a state-of-the-art etch tool with excellent performance and great flexibility, it grew immensely popular and by 2015 it was apparent that we needed yet another tool to cope with the demand. Therefore, in 2016 Pegasus 2 was acquired from a closed-down lab and installed next to Pegasus 1.

Looking to expand our dry etching capabilities in 2017 we got an irresistible offer on a twin Pegasus system with cassette to cassette vacuum robot from a commercial fab. The twin Pegasus system (called Pegasus 3 and 4) is installed at the old cluster 2 location in cleanroom C1 and will run only 6" wafers. Pegasus 3 is the 6" silicon etch work horse and Pegasus 4 is converted (adding extra process gases) into a 6" dielectric etch tool that will supplement/replace the AOE.

This page was originally intended as a regular one-machine page (the Pegasus 1 page). However, as of 2018 with several tools, the page will serve as common page for all of our Pegasi with subpages for each tool.

The DRIE-Pegasus 1 load lock and cassette loader in the DTU Nanolab cleanroom A-1. Photo: DTU Nanolab internal The DRIE-Pegasus 2 operator station and load lock in the DTU Nanolab cleanroom A-1. Photo: DTU Nanolab internal The DRIE-Pegasus3 and DRIE-Pegasus4 operator station and cassette loading stations. Photo: DTU Nanolab internal

The Bosch process

The DRIE Pegasus tools are state-of-art silicon dry etchers that offer outstanding performance in terms of etch rate, uniformity etc. They use the so-called Bosch process to achieve excellent control of the etched features. Click HERE to access the top of the page. The contents are:

  1. Description of the Bosch process
  2. Processing options on the Pegasus
  3. Modification of the showerhead
  4. RF matching
    1. RF matching in general
    2. Why RF matching is extremely important in the Bosch process
  5. Picoscope process monitoring

As of 2017, completing the Dry Etch TPT course is mandatory for all new users. On the TPT web page you will find a version of the latest lecture slides - here you will find information as well.

Links to the individual pages for the Pegasi

Equipment performance and process related parameters

Equipment DRIE-Pegasus 1 DRIE-Pegasus 2 DRIE-Pegasus 3 DRIE-Pegasus 4
Purpose Primary
  • Dry etching of 4" silicon
  • Dry etching of barc
  • Research tool
  • Dry etching of 6" silicon
  • Dry etching of 6" dielectrics
Alternative
  • Black silicon
  • Backup dry etching of 6" silicon
  • ?
  • silicon
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
  • ?
  • ?
  • Depending on the recipe
Uniformity
  • For standard processes better than 3 % across a 150 mm wafer.
  • ?
  • ?
  • Depending on the recipe
Process parameter range RF powers
  • Coil Power 5 kW
  • Platen power 300/500 W (HF/LF)
  • Coil Power 5 kW
  • Platen power 300/500 W (HF/LF)
  • Coil Power 5 kW
  • Platen power 300/500 W (HF/LF)
  • 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
  • SF6-1: 0 to 1200 sccm
  • SF6-2: 0 to 100 sccm
  • O2: 0 to 50 sccm
  • N2: 0 to 500 sccm
  • Ar: 0 to 283 sccm
  • He: 0 to 11 sccm
  • SF6-1: 0 to 1200 sccm
  • SF6-2: 0 to 100 sccm
  • O2: 0 to 200 sccm
  • C4F8: 0 to 400 sccm
  • Ar: 0 to 283 sccm
  • SF6: ?(<20) sccm
  • O2: 200 sccm
  • C4F8: 400 sccm
  • Ar: 283 sccm
  • He: 500 sccm
  • CF4: 100 sccm
  • H2: 100 sccm
Pressure and temperature
  • Pressure range 4 to 250 mTorr
  • Temperature range -20 to 30 degrees C
  • Pressure range 4 to 250 mTorr
  • Temperature range -20 to 30 degrees C
  • Pressure range 4 to 250 mTorr
  • Temperature range -20 to 30 degrees C
  • Pressure range 4 to 250 mTorr
  • Temperature range -20 to 30 degrees C
Process options
  • Bosch processes with etch and dep cycles each split into three
  • Parameter ramping during process steps
  • SOI option to reduce notching at buried oxide layers
  • Picoscope monitoring
  • Claritas endpoint detection system
  • Bosch processes with etch and dep cycles each split into three
  • Parameter ramping during process steps
  • SOI option to reduce notching at buried oxide layers
  • Picoscope monitoring
  • Verity OES
  • Bosch processes with etch and dep cycles each split into three
  • Parameter ramping during process steps
  • Picoscope monitoring
  • SOI option to reduce notching at buried oxide layers
  • Bosch processes with etch and dep cycles each split into three
  • Parameter ramping during process steps
  • Verity OES
Substrates Sizes
  • Smaller than 100mm: Bonded to carriers
  • 100 mm wafers: Up to 25 wafers in a batch process
  • Smaller than 150mm: Bonded to carriers
  • 150 mm wafers
  • Smaller than 150mm: Bonded to carriers
  • 150 mm wafers
  • Smaller than 150mm: Bonded to carriers
  • 150 mm wafers
Loading
  • Load lock
  • MACS (Multiplex Atmospheric Cassette System)
  • Load lock
  • Vacuum cassette loader with two cassette stations and shared dealer chamber with Brooks robot
Allowed materials
  • Silicon wafers
  • Quartz wafers need a (semi)conducting layer for clamping
  • Silicon wafers
  • Quartz wafers need a (semi)conducting layer for clamping
  • Silicon wafers
  • Quartz wafers need a (semi)conducting layer for clamping
  • 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 gentle processes such as process C and nanoetches)
  • AZ photoresist
  • zep resist
  • DUV stepper resist (barc + krf)
  • Oxides and nitrides
  • Aluminium (only very gentle processes)
  • AZ and MiR photoresist
  • zep resist
  • DUV stepper resist (barc + krf)
  • Oxides and nitrides
  • AZ photoresist
  • zep resist
  • DUV stepper resist (barc + krf)
  • Silicon,Oxides and nitrides
  • Al, Cr masks

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.




Hardware changes

A few hardware modifications have been made on the Pegasus 1 since it was installed in 2010. The changes are listed in the table below under hardware options.


DRIE-Pegasus 1 DRIE-Pegasus 2 DRIE-Pegasus 3 DRIE-Pegasus 4
Manufactured 2010 2010 2010 2010
Serial MP0636 MP0641 CP0170 CP0171
Electrode size 4" 6" 6" 6"
Hardware options ?

General Pegasus information

Wafer bonding

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


Characterisation of etched trenches

The trenches in deep silicon trenches can be characterized in many ways. Being able to compare processes requires that a set of common measurements and calculations must be established. Click HERE to find more information about the parameters used on the DRIE-Pegasus process development.