Oxford RIE: Difference between revisions

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* Standard Recipes: [https://docs.google.com/spreadsheets/d/e/2PACX-1vQq4XcefR151mYBgklqcWF9FOO8aEkGMUIhjG4EBruVm8xm6_LGaJOBhc3icg2DIVvD4bUZ4wXFI1G_/pubhtml?gid=873136343&single=true Standard Recipe]
* Standard Recipes: [https://docs.google.com/spreadsheets/d/e/2PACX-1vQq4XcefR151mYBgklqcWF9FOO8aEkGMUIhjG4EBruVm8xm6_LGaJOBhc3icg2DIVvD4bUZ4wXFI1G_/pubhtml?gid=873136343&single=true Standard Recipe]
* Process Control and Calibration Data: [Https://docs.google.com/spreadsheets/d/1cleuEcpL6Nnjj40jUlnfaEt4aXEZ23ReL1UCT6eQsUY/edit?gid=864539770#gid=864539770 Standard Recipe Calibration]
* Process Control and Calibration Data: [Https://docs.google.com/spreadsheets/d/1cleuEcpL6Nnjj40jUlnfaEt4aXEZ23ReL1UCT6eQsUY/edit?gid=864539770#gid=864539770 Standard Recipe Calibration]
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Revision as of 14:27, 13 April 2026

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, 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)
  • Gases: CHF₃, Ar, O₂, CF₄, SF₆
  • Features: Optical endpoint detection (Horiba Jobin Yvon LEM G50), open-load design for fast access, excellent etch uniformity and rate control
  • Restrictions: No exposed metals (except Cr); no deep etching polymers (>1 µm) may be used as a mask only.

Documentation

Recipes & Data

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