NEW data templates - Demis 2021-12-15

Back to Vacuum Deposition Recipes

PECVD 1 (PlasmaTherm 790)

PECVD 1 Plots - SiO2, SiN and Particulate Count

SiO₂ deposition (PECVD #1)

• SiO₂ [PECVD 1] Standard Recipe
• SiO₂ [PECVD 1] Current Process Control Data
• SiO₂ [PECVD 1] Historical Data - Oct. 2021 and earlier

SiN deposition (PECVD #1)

• Si₃N₄ [PECVD 1] Standard Recipe
• Si₃N₄ [PECVD 1] Current Process Control Data
• Si₃N₄ [PECVD 1] Historical Data - Oct. 2021 and earlier

Low Stress Si₃N₄ (PECVD#1)

• Low Stress Si₃N₄ [PECVD 1] Standard Recipe
• Low Stress Si₃N₄ [PECVD 1] Current Process Control Data
• Low Stress Si₃N₄ [PECVD 1] Historical Data - 2021-10 and earlier

SiO_xN_y deposition (PECVD #1)

• SiO_xN_y Standard Recipe
• SiO_xN_y Data 2014
• SiO_xN_y1000A Thickness uniformity 2014

Standard Cleaning Procedure (PECVD #1)

The cleaning procedure is very important in order to have consistent result on this tool and also to keep particulate count low. After each deposition you should clean the tool following instructions carefully. The clean is done in two steps:

1. Wet cleaning (start cleaning by using a cleanroom wipe sprayed with DI. Wipe chamber sidewalls with it. Finish cleaning by using the cleanroom wipe sprayed with IPA. )
2. Load the recipe for cleaning "CF4/O2 Clean" (edit the recipe and change ONLY time of cleaning). Follow instructions regarding a required time for cleaning.

Table of Cleaning Times

Film Dep'd	Cleaning Time
SiO2	TBD
Si3N4	TBD
SiOxNy	Same as XYZ

Standard Cleaning Recipe (PECVD#1): "CF4/O2 Clean"

Click the above link for a screenshot of the standard cleaning recipe, for which you will enter a custom time. The recipe is set up so that it will pop up a window for the cleaning time upon running the recipe - you do not need to edit the recipe before running it.

PECVD 2 (Advanced Vacuum)

PECVD 2 Plots

SiO₂ deposition (PECVD #2)

• SiO₂ [PECVD 2] Standard Recipe - "STD SiO2"
• SiO₂ [PECVD 2] Current Process Control Data
• SiO₂ [PECVD 2] Historical Data - Before Oct. 2021

SiN deposition (PECVD #2)

• Si₃N₄ [PECVD 2] Standard Recipe - "Nitride2"
• Si₃N₄ [PECVD 2] Current Process Control Data
• Si₃N₄ [PECVD 2] Historical Data - Before Oct. 2021

Low-Stress SiN deposition (PECVD #2)

Low-Stress SilIcon Nitride, Si₃N₄ (< 100 MPa)

• Low Stress Si₃N₄ [PECVD 2] Standard Recipe - "LSNitride2"
  • • Old Versions of the recipe:
      • LS Nitride2 Standard Recipe 2014-5/9/2018
      • STD LSNitride2 5/9/2018
• Low Stress Si₃N₄ [PECVD 2] Current Process Control Data
• Low Stress Si₃N₄ [PECVD 2] Historical Data - Before Oct. 2021

Amorphous-Si deposition (PECVD #2)

• Amorphous Si Deposition Recipe
• Amorphous Si Film Characterization and Stress

Standard Cleaning Procedure (PECVD #2)

The cleaning procedure is very important in order to have consistent result on this tool and also to keep particulate count low. After each deposition you should clean the tool following instructions carefully. The clean is done in two steps:

1. (If >29min dep time) Wet cleaning: Start cleaning by using a cleanroom wipe sprayed with DI. Wipe upper chamber sidewalls with it. Finish cleaning by using the cleanroom wipe sprayed with IPA & wiping again.
2. Load the recipe for cleaning "STD CF₄/O₂ Clean" (edit the recipe and change ONLY time of cleaning). Follow instructions regarding required time for cleaning.

Standard Clean Recipe (PECVD#2): "STD CF4/O2 Clean"

Click the above link for a screenshot of the standard cleaning recipe, for which you will enter a custom time. The recipe is set up so that it will pop up a window for the cleaning time upon running the recipe - you do not need to edit the recipe before running it.

Clean Times (PECVD#2)

Film Deposited	Cleaning Time (Dry)
SiO2	1 min. clean for every 1 min. deposition
Si3N4	1 min. clean for every 7 min of deposition
If > 29min total dep time (Season + Dep)	Wet Clean the Upper Lid/Chamber DI water then Isopropyl Alcohol on chamber wall & portholes

ICP-PECVD (Unaxis VLR)

2020-02: New recipes have been characterized for low particulate count and repeatability.  Only staff-supplied recipes are allowed in the tool. Please follow the new procedures to ensure low particle counts in the chamber.

The system currently has Deuterated Silane (SiD4) installed - identical to the regular Silicon precursor SiH4, except that it significantly lowers optical absorption in the near-infrared due to shifted molecular vibrations/molecular weights.

ICP-PECVD Plots - TBD

Low Deposition Rate SiO₂ [ICP-PECVD]

• Low Deposition Rate SiO₂ [ICP-PECVD] - Standard Recipe - "SiO2 LDR 250C"
• Low Deposition Rate SiO₂ [ICP-PECVD] - Current Process Control Data
• Low Deposition Rate SiO₂ [ICP-PECVD] - Historical Data - before Oct. 2021

High Deposition Rate SiO₂ [ICP-PECVD]

• High Deposition Rate SiO₂ [ICP-PECVD] Standard Recipe - "SiO2 HDR 250C"
• High Deposition Rate SiO₂ [ICP-PECVD] Present Data
• High Deposition Rate SiO₂ [ICP-PECVD] Historical Data

Si₃N₄ [ICP-PECVD]

• Si₃N₄ [ICP-PECVD] Standard Recipe - "SiN 250C"
• Si₃N₄ [ICP-PECVD] Current Process Control Data
• Si₃N₄ [ICP-PECVD] Historical Data - before Oct. 2021

Low Stress Si₃N₄ [ICP-PECVD]

• Low Stress Si₃N₄ [ICP-PECVD] Standard Recipe - "SiN Low Stress 250C"
• Low Stress Si₃N₄ [ICP-PECVD] Current Process Control Data
• Low Stress Si₃N₄ [ICP-PECVD] Historical Data - before Oct. 2021

Standard Cleaning Procedure [ICP-PECVD]

You must edit the Post-Dep Clean recipe to correspond to your deposited thickness and material. See the Operating Procedure on the Unaxis Tool Page for details.

• SiNx etches at 20nm/min
• SiO₂ etches at 40nm/min

Standard Clean Recipe

To Be Added

Ion Beam Deposition (Veeco NEXUS)

Ion-Beam Assisted Deposition - high density reactive sputtering, with angled/rotating fixtures.

IBD Plots - To Be Added

SiO₂ deposition (IBD)

• SiO₂ [IBD] Standard Recipe - "1_SiO2_dep"
• SiO₂ [IBD] Current Process Control Data
• SiO₂ [IBD] Historical Data - Before Oct. 2021

SiO₂ Thin-Film Properties (IBD)

• Dep.rate: ≈ 5.2 nm/min (users must calibrate this prior to critical deps)
• HF Etch Rate ~350 nm/min
• Stress ≈ -390MPa (compressive)
• Refractive Index: ≈ 1.494
• Cauchy Parameters (350-2000nm):
  • A = 1.480
  • B = 0.00498
  • C = -3.2606e-5

Si₃N₄ deposition (IBD)

• Si₃N₄ [IBD] Standard Recipe - "1_Si3N4_Dep"
• Si₃N₄ [IBD] Current Process Control Data
• Si₃N₄ [IBD] Historical Data - before Oct. 2021

Si₃N₄ Thin-Film Properties (IBD)

• Deposition Rate: ≈ 4.10 nm/min (users must calibrate this prior to critical deps)
• HF Etch Rate: ~11nm/min
• Stress ≈ -1590MPa (compressive)
• Refractive Index: ≈ 1.969
• Cauchy Parameters (350-2000nm):
  • A = 2.000
  • B = 0.01974
  • C = 1.2478e-4

Ta₂O₅ deposition (IBD)

• Ta₂O₅ [IBD] Standard Recipe - "1_Ta2O5_dep"
• Ta₂O₅ [IBD] Current Process Control Data
• Ta₂O₅ [IBD] Historical Data - before Oct. 2021

Ta2O5 Thin-Film Properies (IBD)

• Ta2O5 1hr depositions:
• Deposition Rate: ≈ 7.8 nm/min (users must calibrate this prior to critical deps)
• HF Etch Rate ≈ 2 nm/min
• Stress ≈ -232MPa (compressive)
• Refractive Index: ≈ 2.172
• Cauchy Parameters (350-2000nm):
  • A = 2.1123
  • B = 0.018901
  • C = -0.016222

Al₂O₃ deposition (IBD)

• Al₂O₃ [IBD] Standard Recipe - "1_Al2O3_dep"
• Al₂O₃ [IBD] Present Data
• Al₂O₃ [IBD] Historical Data

Al2O3 Thin-Film Properties (IBD)

• • Deposition Rate ≈ 2.05nm/min (users must calibrate this prior to critical deps)
  • HF etch rate ≈ 167nm/min
  • Stress ≈ -332MPa (compressive)
  • Refractive Index: ≈ 1.656
  • Cauchy Parameters (350-2000nm):
    • A = To Be Added
    • B =
    • C =
  • Absorbing < ~350nm

TiO₂ deposition (IBD)

• TiO₂ [IBD] Standard Recipe - "1_TiO2_dep"
• TiO₂ [IBD] Current Process Control Data
• TiO₂ [IBD] Historical Data

TiO₂ Thin-Film Properties (IBD)

• Deposition Rate: ≈ 1.29 nm/min (users must calibrate this prior to critical deps)
• HF etch rate ~5.34nm/min
• Stress ≈ -445MPa (compressive)
• Refractive Index: ≈ 2.259
• Cauchy Parameters (350-2000nm):
  • A = 2.435
  • B = -4.9045e-4
  • C = 0.01309
• Absorbing < ~350nm wavelength

SiO_xN_y deposition (IBD)

These are some old (2010), initial characterizations only. A recipe improvement would be to increase the Assist O2+N2 = 60sccm total, increasing repeatability. Contact Demis for more info.

IBD SiOxNy: Refractive Index vs. O2/N2 Flow.	Dep. Rate of IBD SiOxNy vs. Assist O2 flow.

Standard Cleaning Procedure (IBD)

You must edit the "1_GridClean" steps in your Process according to the following table:

• SiNx etches at 20nm/min
• SiO₂ etches at 40nm/min

Standard Grid-Clean Recipe

To Be Added