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{{contentbydryetch}} 
'''Feedback to this page:
[mailto:labadviser@nanolab.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.nanolab.dtu.dk/index.php/Specific_Process_Knowledge/Etch/DRIE-Pegasus/TrenchCharacterisaion click here]'''
[[Category: Equipment |Etch DRIE]]
[[Category: Etch (Dry) Equipment|DRIE]]




= Characterization of DRIE silicon trenches =
= Characterization of DRIE silicon trenches =
Deep silicon trenches come in many sizes and shapes. The best way of characterizing them is to cleave the wafer perpendicular to the trench and inspect the profile in an SEM or optical microscope. In the SEM the challenge is to get the best information possible about the profile with as little effort as possible. The information acquired must be simple and useful. Below is an example.
Dry etched silicon trenches come in many sizes and shapes. In most cases the best way of characterizing them is to cleave the wafer perpendicularly to the trench and inspect the profile in an SEM or optical microscope. The SEM provides by far the best information as there are no challenges with limited depth of focus or image resolution. To make a complete data set with, say, variations trench widths or etch loads
the work of adding measurements to SEM images, collecting the data and making sure that it is complete is, however, tedious. Instead of adding a ton of measurements to each SEM image while at the SEM and hence spend an unreasonable amount of time there, one can postpone making the measurements till afterwards by using a Matlab script as the one described below.


[[File:etched profiles (3).PNG|1000px]]
== Using Matlab scripts ==


=== Input parameters ===
A Matlab script automating the measurements from SEM images on etched trenches has been developed in the Matlab AppDesigner. It follows the sequence:
# '''Input parameters''': The information about the etch process can be entered manually or read from a text file.
## Date
## User
## Wafer info: Substrate size, material etched, etch load, mask material and thickness
## Chamber conditioning, steps before the actual etch
## Wafer ID, Labmanager process log
## Recipe, duration, number of cycles
## Comments
## Mask thickness before and after etch
# '''Input images''': A list of SEM images (only tiff format images from Carl Zeiss SEM's that have a correct header can be used) is entered and measurement points are added to every image one by one.
## The pixel size in the the SEM image is read from the tiff image header


'''At the SEM'''
Many users make measurements using the annotations in the SEM. However, instead of adding a ton of measurements to each SEM image while at the SEM and hence spend an unreasonable amount of time there, one can postpone making the measurements till afterwards. The only requirement is that the pixel size of every SEM image is known - one can add it to the datazone: See any SEM manual for instructions - for instance [http://labmanager.dtu.dk/d4Show.php?id=2180&mach=275#dafs29430 '''HERE''']


'''Making measurements'''
'''Making measurements'''


Opening the SEM images with Irfanview (or any other image viewer with the same possibilities) and drawing squares (the pixel dimensions are shown in the top) as measurements. These squares are one pixel wide compared to the 2 (or even 3) which are default for the annotations in smartSEM.
Opening the SEM images with Irfanview (or any other image viewer with the same possibilities) and drawing squares (the pixel dimensions are shown in the top) as measurements. These squares are one pixel wide compared to the 2 (or even 3) which are default for the annotations in smartSEM.  
 


; Pixel Size (PS)
; Pixel Size (PS)
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** Undercut features
** Undercut features
* '''Aspect ratio dependent etching''': Trenches with high aspect ratios typically etch faster in the beginning of the etch process compared to the end because of aspect ratio dependent etching. The correct approach would be to establish an initial and a final etch rate but that requires more elaborate measurements.  
* '''Aspect ratio dependent etching''': Trenches with high aspect ratios typically etch faster in the beginning of the etch process compared to the end because of aspect ratio dependent etching. The correct approach would be to establish an initial and a final etch rate but that requires more elaborate measurements.  
* '''Scallops''':  
* '''Scallops''': The scallops from the Bosch process
*
*
=== Where have these numbers been used? ===
* [[Specific_Process_Knowledge/Etch/DRIE-Pegasus/processA]]
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