STS Pegasus 4/Processes/LNF Recipe 2

From LNF Wiki
Jump to navigation Jump to search


About this Process
STS Pegasus 4 Recipe 2 2 um.jpg
Recipe 2 for 20 min, 2 µm Trench
Process Details
Equipment STS Pegasus 4
Technology DRIE
Material Si
Mask Materials PR, SiO2
Gases Used SF6, C4F8, O2
Date Created Jan 1, 2009
Authored By SPTS, Brian Vanderelzen, Kevin Owen



This recipe is designed for deep and through wafer etching of small (1-500 μm) features on masks with a low exposed area (<20%). Undercut and scalloping is larger than LNF Recipe 1, but etch rates are higher (4-13 μm/min).

Procedure

Run LNF Recipe 2 for up to 20 minutes with the 1 minute automated clean recipe, longer etches should be run with the 3 minute automated clean recipe.

Parameters

Parameter Dep Breakthrough Etch
ICP Power 2000 W 2800 W
Bias Power 0 W 100 W 40 W
Bias Pulsing 40 Hz 80%
Pressure 25 mTorr 30 mTorr 100 mTorr
C4F8 Flow 200 sccm 0 sccm
SF6 Flow 0 sccm 450 sccm
O2 Flow 0 sccm 45 sccm
Time 4 s 1.5 s 5.5 s

Capabilities

This process, as is true with all Bosch processes, varies depending on feature size and density, due to RIE lag. The below table contains typical results for 2 µm, 10 µm, and 100 µm trenches and the following sections expand on these results. It is strongly recommended that the process is tested with any new mask.

Parameter 2 µm Trench 10 µm Trench 100 µm Trench
Etch Rate 6.8 µm/min 10.4 µm/min 14.4 µm/min
Undercut 0.85 µm 0.9 µm
Scallop height 1.6 µm 2.6 µm 3 µm
Scallop depth 0.65 µm 0.74 µm
Sidewall angle 89.8° 89.8° 88.4°

Etch Rate

The etch rate will vary with the size of the trench being etched. Larger trenches tend to etch faster, this trend can be seen below.

Mask Selectivity

  • Photoresist Etch Rate
  • SiO2 Etch Rate
    • Thermal oxide: 155 Å/min
    • HTO: 175 Å/min
    • LTO: 185 Å/min
    • PECVD: unknown

Sidewall Profile

Mask undercut, scalloping, and sidewall angle are shown below.

Trench

Running recipe 2 for 20 minutes with 3 µm of SPR 220 on a silicon wafer with our standard DRIE characterization mask can produce a profile like this.


Limitations

LNF Recipe 2 is known to work under a range of conditions. Outside of these conditions, etch performance is not guaranteed. Etch rates will vary depending on feature size, etch length, open area, etc. We strongly recommend testing the process prior to running device wafers.

One common problem seen when running outside of these conditions is grassing. This occurs when the C4F8/SF6 ratio is unbalanced causing micromasking. This creates tiny pillars of un-etched Si and teflon on the surface of the feature. An example of grassing can be seen below.

Grass (brown area) on perimeter of wafer

Etch Length

  • Generally 30 sec - 20 minutes is known to work well.
  • Recipe 2 is tested for 10 min monthly to verify performance. Longer etches may cause undesirable results.

Feature Size

  • Tested on features from 1 μm - 100 μm.
  • The standard characterization pattern used to qualify Recipe 2 has open lines, trenches, and grating patterns from 1 μm - 100 μm. Larger and smaller features have not been tested and may not provide the expected results.

Aspect ratio

  • Aspect ratio limitations vary depending on feature size. For instance, 2 μm features have an aspect ratio limit of around 50:1. For larger features, aspect ratio is typically limited to etch length (see above).

Open area

  • Very large features and masks with total open area >20% are known to degrade etch performance and should be tested prior to running device wafers. For masks with more than 20% open area Recipe 3 may provide better results.

Multi-step etching

  • Multi-step processing (i.e. running two or more etches with overlapping features) with the Bosch process is known to cause undesirable results. Please contact the tool engineers if you wish to run such a process so we can help reduce or eliminate issues.

Qualification

Every third Friday Recipe 2 is run for 10 minutes on a Si wafer with our standard DRIE characterization mask, with 3 µm of SPR 220. This is performed after the weekly clean, and a 100 µm trench is measured in 5 locations with the Zygo NewView 5000. This etch rate is reported in the chart below.