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Line 72: == Dry Etcher Comparison ==
== Dry Etcher Comparison ==
Use this table to help choose the right etching tool for your process.
Use this table to help choose the right etching tool for your process.
{{Etcher_Comparison} }
{| class="wikitable" style="width:100%; border:3px solid #990000; background:#ffffff; text-align:left;"
|-
! style="background:#990000; color:#FFCC00; padding:10px; border:2px solid #990000; min-width:120px;" | Feature
! style="background:#FFCC00; color:#990000; padding:10px; border:2px solid #990000; font-weight:bold;" | ★ [[Oxford_RIE|Oxford RIE]] (this tool)
! style="background:#990000; color:#FFCC00; padding:10px; border:2px solid #990000;" | [[Tool_list#Oxford_DRIE|Oxford DRIE]]
! style="background:#990000; color:#FFCC00; padding:10px; border:2px solid #990000;" | [[Tool_list#Oxford_DRIE-ALE|Oxford DRIE-ALE]]
! style="background:#990000; color:#FFCC00; padding:10px; border:2px solid #990000;" | [[Tool_list#Oxford_III-V|Oxford III-V]]
! style="background:#990000; color:#FFCC00; padding:10px; border:2px solid #990000;" | [[Tool_list#XeF2_etcher|XeF2 Etcher]]
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Model
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | PlasmaPro 80 RIE
| style="padding:8px; border:1px solid #990000;" | Oxford System 100 DRIE
| style="padding:8px; border:1px solid #990000;" | Oxford DRIE + ALE
| style="padding:8px; border:1px solid #990000;" | PlasmaPro 100 Cobra
| style="padding:8px; border:1px solid #990000;" | Custom built (Armani group)
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Location
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | Etch Bay 1
| style="padding:8px; border:1px solid #990000;" | Etch Bay 1
| style="padding:8px; border:1px solid #990000;" | Etch Bay 1
| style="padding:8px; border:1px solid #990000;" | Etch Bay 1
| style="padding:8px; border:1px solid #990000;" | Deposition Bay 1
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Substrate Size
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | Up to 200 mm (8")
| style="padding:8px; border:1px solid #990000;" | Up to 4" clamp; 2", 3", 4", 6", 8" possible
| style="padding:8px; border:1px solid #990000;" | TBD (commissioning)
| style="padding:8px; border:1px solid #990000;" | Up to 4" clamp; 2", 3", 4", 6", 8" possible
| style="padding:8px; border:1px solid #990000;" | Up to 6"
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Etch Type
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | RIE (capacitively coupled)
| style="padding:8px; border:1px solid #990000;" | DRIE / Bosch (ICP)
| style="padding:8px; border:1px solid #990000;" | DRIE + Atomic Layer Etch
| style="padding:8px; border:1px solid #990000;" | ICP-RIE (cryo capable)
| style="padding:8px; border:1px solid #990000;" | Isotropic chemical etch
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Table RF Power
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | 300 W max
| style="padding:8px; border:1px solid #990000;" | 300 W max
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | 1500 W max
| style="padding:8px; border:1px solid #990000;" | N/A
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | ICP Power
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | None (RIE only)
| style="padding:8px; border:1px solid #990000;" | 3000 W max
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | 1500 W max
| style="padding:8px; border:1px solid #990000;" | N/A
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Table Temperature
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | 20°C
| style="padding:8px; border:1px solid #990000;" | 20°C
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | -120°C to 200°C
| style="padding:8px; border:1px solid #990000;" | 20°C
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Gases
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | Ar, O₂, CF₄, CHF₃, SF₆
| style="padding:8px; border:1px solid #990000;" | Ar, O₂, CF₄, CHF₃, SF₆, C₄F₈
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | Ar, O₂, SF₆, CH₄, H₂, Cl₂, BCl₃, SiCl₄
| style="padding:8px; border:1px solid #990000;" | XeF₂ (crystal source)
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Allowed Materials
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | Si, SiO₂, Si₃N₄, oxide/nitride masks, Cr
| style="padding:8px; border:1px solid #990000;" | Si, SiO₂, SiN, Parylene, Polyimide, LiNbO₃, BCB
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | InP, InAs, GaN, AlGaAs, GaAs, InGaAsP, ITO, Si, SiC, MoS₂, WSe, Graphene
| style="padding:8px; border:1px solid #990000;" | Si only
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Disallowed
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | No metals except Cr; no deep polymer >1 µm
| style="padding:8px; border:1px solid #990000;" | No exposed metals except Cr
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | No metals except Cr; no deep polymer >1 µm
| style="padding:8px; border:1px solid #990000;" | None listed
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Endpoint Detection
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | ✓ Optical (LEM G50)
| style="padding:8px; border:1px solid #990000;" | ✓ Optical
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | ✓ Optical (LEM G50)
| style="padding:8px; border:1px solid #990000;" | ✗
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Best For
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | Dielectric etching, passivation removal, via openings, resist descum
| style="padding:8px; border:1px solid #990000;" | Deep Si etching, high-aspect-ratio structures, Bosch process
| style="padding:8px; border:1px solid #990000;" | Precise atomic-layer-level etch control
| style="padding:8px; border:1px solid #990000;" | III-V semiconductors, exotic/compound materials, cryo etching
| style="padding:8px; border:1px solid #990000;" | Fast isotropic Si etching, high selectivity
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | Status
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | ✓ Operational
| style="padding:8px; border:1px solid #990000;" | ✓ Operational
| style="padding:8px; border:1px solid #990000;" | ⚠ Being commissioned
| style="padding:8px; border:1px solid #990000;" | ✓ Operational
| style="padding:8px; border:1px solid #990000;" | ✓ Operational
|-
| style="background:#fff5f5; font-weight:bold; padding:8px; border:1px solid #990000;" | SOP
| style="padding:8px; border:1px solid #990000; background:#fffdf0;" | [[:File:OXFDRIE80 SOP Updated 2026.pdf|SOP]]
| style="padding:8px; border:1px solid #990000;" | [[:File:DRIE_SOP_-_August_2023.pdf|SOP]]
| style="padding:8px; border:1px solid #990000;" | TBD
| style="padding:8px; border:1px solid #990000;" | [[:File:III_V_Etcher_SOP_-_August_2023.pdf|SOP]]
| style="padding:8px; border:1px solid #990000;" | [[:File:XeF2_SOP_-_June_2023.pdf|SOP]]
|}
== Documentation ==
== Documentation ==
About
Oxford PlasmaPro 80 RIE tool in Etch Bay Films / Materials: This is an Oxford Instruments PlasmaPro 80 reactive ion etcher (RIE) optimized for etching dielectric materials such as SiO₂, Si₃N₄, and Si, with good anisotropy and control. It is primarily used for etching dielectrics in micro- and nanofabrication processes.
Hardware: Parallel-plate capacitively-coupled RF plasma system (13.56 MHz). Open-load design for fast loading/unloading of samples. No load lock; direct chamber access. Electrode/table temperature controlled at 20°C (ambient/chilled). Includes optical endpoint detection (Horiba Jobin Yvon LEM G50) for precise process stop.
Gases:
Ar (argon – physical sputtering/milling component)
O₂ (oxygen – for ashing, oxidation, or enhancing etch rates)
CF₄ (tetrafluoromethane – fluorine-based etching of SiO₂/Si₃N₄)
CHF₃ (trifluoromethane – for selective SiO₂ etching, polymer sidewall passivation)
SF₆ (sulfur hexafluoride – high-rate isotropic/fluorine etching of Si/SiO₂) Etch Properties:
Primarily anisotropic etching of dielectrics via ion bombardment and chemical reactions.
Suitable for shallow to moderate depth etches (avoid deep polymer etching >1 µm due to restrictions).
High selectivity possible depending on gas mix and power (e.g., SiO₂ over Si with CHF₃/O₂).
Excellent process control for uniformity across up to 200 mm substrates. Applications: Etching of dielectric layers (e.g., oxide/nitride masks, passivation removal, via openings), resist descum, surface cleaning/activation. Not for exposed metals (except Cr) or deep polymer etches; polymer may be used as a mask only.
Usage: Load sample directly (pieces to 200 mm wafers), select/load recipe, set time/power based on calibrated etch rates. Use endpoint detection for timed or auto-stop processes. Monitor particles and uniformity post-etch.
Detailed Specifications
Model: PlasmaPro 80 reactive ion etcher
Location: Etch Bay 1
Substrate size: Up to 8 (200 mm) wafers (pieces/smaller possible; open loading)
RF Power: Table RF power (max) 300 W (13.56 MHz)
Table temperature: 20°C (chilled/controlled) / (max) 80°C
Gases:
CHF₃ (max) 100 sccm
Ar (max) 100 sccm
O₂ (max) 50 sccm
CF₄ (max) 50 sccm
SF₆ (max) 100 sccm
Features: Optical endpoint detection (Horiba Jobin Yvon LEM G50), open-load design for fast access, excellent etch uniformity and rate control
Restrictions and Materials Allowed
Restrictions
Materials Allowed
No exposed metals except Cr
No deep polymer etching (> 1 µm)
Polymers allowed only as masks
Not intended for metal etching
Avoid uncalibrated deep or high-aspect-ratio processes
SiO₂
Si₃N₄
Si
Oxide masks
Nitride masks
Passivation removal
Via openings
Resist descum
Surface cleaning and activation
Chromium (Cr) as exposed metal
Dry Etcher Comparison
Use this table to help choose the right etching tool for your process.
Template:Etcher Comparison
Documentation
Recipe Control Charts
