ICP Etching Recipes: Difference between revisions
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==Photoresist & ARC (Fluorine ICP Etcher)== |
==Photoresist & ARC (Fluorine ICP Etcher)== |
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Chain multiple Recipes in a Flow, to allow you to to do ''in situ'' BARC etching, and follow up with ''in situ'' Photoresist Strip. |
Chain multiple Recipes in a Flow, to allow you to to do ''in situ'' BARC etching, and follow up with ''in situ'' Photoresist Strip. |
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=== PR/BARC Etch (Fluorine ICP Etcher) === |
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*Etching [[Stepper Recipes#DUV-42P|DUV42P-6]] Bottom Anti-Reflection Coating |
*Etching [[Stepper Recipes#DUV-42P|DUV42P-6]] Bottom Anti-Reflection Coating |
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**O2=20sccm / 10mT / RF1(bias)=100W / RF2(icp)=0W |
**O2=20sccm / 10mT / RF1(bias)=100W / RF2(icp)=0W |
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**1min |
**1min |
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=== Photoresist Strip/Polymer Removal (Fluorine ICP Etcher) === |
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**O2=100sccm / 5mT / RF1(bias)=10W / RF2(icp)=825W |
**O2=100sccm / 5mT / RF1(bias)=10W / RF2(icp)=825W |
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**Use laser monitor to check for complete removal, overetch to remove Fluorocarbon polymers. |
**Use laser monitor to check for complete removal, overetch to remove Fluorocarbon polymers. |
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==GaSb Etch (Unaxis VLR)== |
==GaSb Etch (Unaxis VLR)== |
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=[[Oxford ICP Etcher (PlasmaPro 100 Cobra)]]= |
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==InP Ridge Etch (Oxford ICP Etcher)== |
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InP etches were characterized with '''no''' mounting adhesive used, 1/4-wafer of 50mm wafer placed on Silicon carriers (rough side up). |
InP etches were characterized with '''no''' mounting adhesive used, 1/4-wafer of 50mm wafer placed on Silicon carriers (rough side up). |
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===Low-Temp (60°C) Process=== |
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*[[Low-Temp InP Ridge Etch Characterization]] - ''To Be Added'' |
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===High-Temp (200°C) Process=== |
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*[[High-Temp InP Ridge Etch Characterization]] - ''To Be Added'' |
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==InP Grating Etch (Oxford ICP Etcher)== |
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InP/InGaAsP etches were characterized with '''no''' mounting adhesive used, 1/4-wafer of 50mm wafer placed on Silicon carriers (rough side up). |
InP/InGaAsP etches were characterized with '''no''' mounting adhesive used, 1/4-wafer of 50mm wafer placed on Silicon carriers (rough side up). |
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* |
*[[Low-Temp InP Ridge Etch Characterization|InP/InGaAsP Grating Etch Characterization]] - ''To Be Added'' |
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=[[Si Deep RIE (PlasmaTherm/Bosch Etch)]]= |
=[[Si Deep RIE (PlasmaTherm/Bosch Etch)]]= |
Revision as of 00:02, 28 September 2021
Back to Dry Etching Recipes.
DSEIII_(PlasmaTherm/Deep_Silicon_Etcher)
Edge-Bead Removal
Make sure to remove photoresist from edges of wafer, or PR may stick to the top-side wafer clamp and destroy your wafer during unload!
- Edge Bead Removal via Photolithography: use a custom metal mask to pattern the photoresist with a flood exposure.
- If you are etching fully through a wafer, remember that removal of edge-bead will cause full etching in the exposed areas. To prevent a wafer from falling into the machine after the etch, you can mount to a carrier wafer using wax.
High Rate Bosch Etch (DSEIII)
- Bosch Process Recipe and Characterization - Standard recipe on the tool.
- Recipe Name: "Plasma-Therm Standard DSE" (Production - copy to your Personal category)
- Standard Bosch Process for high aspect-ratio, high-selectivity Silicon etching.
- Cycles between polymer deposition "Dep" / Polymer etch "Etch A" / Si etch "Etch B" steps. Step Times gives fine control.
- To reduce roughening/grassing (black silicon), reduce Dep step time by ~20%.
- Patterns with different etched areas will have different "optimal" parameters.
- Approx Selectivity to Photoresist: 60-80 or better. Larger open area, lower selectivity and lower etch rate.
Single-Step Low Etch Rate Smooth Sidewall Process (DSEIII)
- Single Step Silicon Etch Recipe and Characterization
- Recipe Name: "Nano Trench Etch" (Production - copy to your Personal category)
- Used instead of Bosch Process, to avoid scalloping on the sidewall.
- Lower selectivity, lower etch rate, smoother sidewalls.
PlasmaTherm/SLR Fluorine Etcher
Si Etching (Fluorine ICP Etcher)
- SiVertHF - Si Vertical Etch using C4F8/SF6/CF4 and resist mask
- Etch Rates: Si ≈ 300-350 nm/min; SiO2 ≈ 30-35 nm/min
- 89-90 degree etch angle, ie, vertical.
- Due to high selectivity against SiO2, it may be necessary to run a ~10sec 50W SiO2 etch (below) to remove native oxide on Si. This can be performed in situ before the Si etch.
SiO2 Etching (Fluorine ICP Etcher)
- SiO2 Etching using Ruthenium Hardmask - Full Process Traveler
- Ning Cao & Bill Mitchell, 2019-06
- High-selectivity and deep etching using sputtered Ru hardmask and I-Line litho.
- Variations in SiO2 etch Bias Power: 50 / 200 / 400W bias.
- Ru etch selectivity to PR: 0.18 (less than 1): 150nm Ru / 800nm PR
- 200W Bias:
- SiO2 selectivity to Ru: 38
- SiO2 etch rate: 471nm/min
- 50W Bias:
- Higher selectivity to photoresist: TBD
- SiO2 selectivity to Ru: 36
- SiO2 etch rate: 263nm/min
- This etch is detailed in the following article: W.J. Mitchell et al., JVST-A, May 2021
Photoresist & ARC (Fluorine ICP Etcher)
Chain multiple Recipes in a Flow, to allow you to to do in situ BARC etching, and follow up with in situ Photoresist Strip.
PR/BARC Etch (Fluorine ICP Etcher)
- Etching DUV42P-6 Bottom Anti-Reflection Coating
- ~60nm thick (2500krpm)
- O2=20sccm / 10mT / RF1(bias)=100W / RF2(icp)=0W
- 1min
Photoresist Strip/Polymer Removal (Fluorine ICP Etcher)
- O2=100sccm / 5mT / RF1(bias)=10W / RF2(icp)=825W
- Use laser monitor to check for complete removal, overetch to remove Fluorocarbon polymers.
Historical Data (Fluorine ICP Etcher)
SiO2 Etch Historical Data
Cleaning Procedures (Fluorine ICP Etcher)
To Be Added
ICP Etch 1 (Panasonic E626I)
SiO2 Etching (Panasonic 1)
Recipes
- SiO2 Vertical Etch Recipe Parameters - CHF3 "SiOVert"
- Etch rate ≈ 2300Å/min (users must calibrate)
- Selectivity (SiO2:Photoresist) ≈ greater than 1:1 (users must calibrate)
Historical Data (SiO2, Panasonic 1)
Recipe Variations
Use these to determine how each etch parameter affects the process.
- SiO2 CHF3 Etch Variations - CHF3 with varying Bias and Pressure, Slanted SiO2 etching
SiNx Etching (Panasonic 1)
Al Etch (Panasonic 1)
Cr Etch (Panasonic 1)
Ta Etch (Panasonic 1)
- Ta Etch Recipe - Cl2/BCl3
Ti Etch (Panasonic 1)
W-TiW Etch (Panasonic 1)
GaAs-AlGaAs Etch (Panasonic 1)
- GaAs-Nanoscale Etch Recipe - PR mask - Cl2-BCl3-Ar
- AlGaAs Etch Recipes - Cl2N2
- GaAs DRIE via Etch Recipes - Cl2-BCl3-Ar PR passivation
GaN Etch (Panasonic 1)
Photoresist and ARC Etching (Panasonic 1)
Please see the recipes for Panasonic ICP#2 - the same recipes apply.
Etching of DUV42P at standard spin/bake parameters also completes in 45 seconds.
SiC Etch (Panasonic 1)
Sapphire Etch (Panasonic 1)
Old Deleted Recipes
Since there are a limited number of recipe slots on the tool, we occasionally have to delete old, unused recipes.
If you need to free up a recipe slot, please contact Don and he'll help you find an old recipe to replace. We take photographs of old recipes, and save them in case a group needs to revive the recipe. Contact us if your old recipe went missing.
ICP Etch 2 (Panasonic E640)
Recipes starting points for materials without processes listed can be obtained from Panasonic1 recipe files. The chambers are slightly different, but essentially the same, requiring only small program changes to obtain similar results.
SiO2 Etching (Panasonic 2)
Recipes
- SiO2 Vertical Etch Recipe - CHF3 "SiOVert"
- Direct copy of "SiOVert" from ICP#1, see parameters there.
- SiO2 Vertical Etch Recipe#2 - CF4/CHF3
- SiO2 Nanoscale Etch Recipe - CHF3/O2
Historical Data (SiO2 Etch, Panasonic 2)
Recipe Variations
Use these to determine how each etch parameter affects the process.
SiNx Etching (Panasonic 2)
Al Etch (Panasonic 2)
Al2O3 Etching (Panasonic 2)
ALD Al2O3 Etch Rates in BCl3 Chemistry (click for plots of etch rate)
Contributed by Brian Markman, 2018
- BCl3 = 30sccm
- Pressure = 0.50 Pa
- ICP Source RF = 500
- Bias RF = 50W or 250W (250W can burn PR)
- Cooling He Flow/Pressure = 15.0 sccm / 400 Pa
- Etch Rate 50W: 0.66nm/sec
- Etch Rate 250W: 1.0 nm/sec
GaAs Etch (Panasonic 2)
Photoresist and ARC etching (Panasonic 2)
Basic recipes for etching photoresist and Bottom Anti-Reflection Coating (BARC) underlayers are as follows:
ARC Etching: DUV-42P or AR6
- O2 = 40 sccm // 0.5 Pa
- ICP = 75W // RF = 75W
- 45 sec for full etching of DUV-42P (same as for AR6; 2018-2019, Demis/BrianT)
UV6-0.8 Etching
Works very well for photoresist stripping
- O2 = 40 sccm // 1.0 Pa
- ICP = 350W // RF = 100W
- Etch Rate = 518.5nm / 1min (2019, Demis)
- 2m30sec to fully remove with ~200% overetch
Ru (Ruthenium) Etch (Panasonic 2)
- Ru Etch - Bill Mitchell 2019-09-19
- This etch is used in the following publication: W.J. Mitchell, "Highly Selective and Vertical Etch of Silicon Dioxide using Ruthenium Films as an Etch Mask" (JVST-A, 2021)
ICP-Etch (Unaxis VLR)
GaAs-AlGaAs Etch (Unaxis VLR)
InP-InGaAs-InAlAs Etch (Unaxis VLR)
- InP-based Material Etch Profile (Cl2N2Ar200C)
- InP-InGaAs Etch Profile (Cl2H2Ar 200C)
- Recipe of Etching SiO2 Mask for Cl2 Etch (ICP#2)
- InP Etch Historical Data (Cl2H2Ar 200C)
- InP Etch Test
- Lower etch-rate InP Etch (Cl2N2 200C)
GaN Etch (Unaxis VLR)
GaSb Etch (Unaxis VLR)
Oxford ICP Etcher (PlasmaPro 100 Cobra)
InP Ridge Etch (Oxford ICP Etcher)
InP etches were characterized with no mounting adhesive used, 1/4-wafer of 50mm wafer placed on Silicon carriers (rough side up).
Low-Temp (60°C) Process
- Low-Temp InP Ridge Etch Characterization - To Be Added
High-Temp (200°C) Process
- High-Temp InP Ridge Etch Characterization - To Be Added
InP Grating Etch (Oxford ICP Etcher)
InP/InGaAsP etches were characterized with no mounting adhesive used, 1/4-wafer of 50mm wafer placed on Silicon carriers (rough side up).
- InP/InGaAsP Grating Etch Characterization - To Be Added
Si Deep RIE (PlasmaTherm/Bosch Etch)
This tool does not exist in this configuration any more, so these recipes are for Reference purposes Only!!! The machine was upgraded to be the new Plasma-Therm Fluorine ICP Etcher - the chamber configuration is now different, making these recipes invalid. For Deep Silicon Etching, the Plasma-Therm DSE-iii is often used. Some single-step Silicon etching is still performed on the SLR Fluorine ICP, due to the slower etch rate.
Bosch and Release Etch (Si Deep RIE)
- Bosch and Release Processes
- Ideal for deep (>>1µm), vertical etching of Silicon. Through-wafer etches are possible (requires carrier wafer).
- Etch rate depends on area of exposed silicon being etched.
- Al2O3 mask (ALD or Sputter) has >9000:1 selectivity
- SiO2 (PECVD) mask has ~100:1 selectivity
- Thermal SiO2 has ~300:1 selectivity.