Surface Analysis (KLA/Tencor Surfscan): Difference between revisions

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*[https://wiki.nanofab.ucsb.edu/w/images/2/29/Wafer_Particle_Count-Process_Traveler.pdf Wafer Scanning Instructions]
*[https://wiki.nanofab.ucsb.edu/w/images/2/29/Wafer_Particle_Count-Process_Traveler.pdf Wafer Scanning Instructions]
**''This is the procedure Staff uses to calibrate particle counts on our deposition tools. The Data will be saved on: Desktop/Local Disk (C)/Users/Public/Public Documentation/Users Nanofiles/YOUR FOLDER. The data will be saved as a photo.
**''This is the procedure Staff uses to calibrate particle counts on our deposition tools.
After the scan is complete you need to press ENTER on a small laptop. The Data will be saved on:
Desktop/Local Disk (C)/Users/Public/Public Documentation/Users Nanofiles/YOUR FOLDER. The data will be saved as a photo.
''
''



Revision as of 19:05, 27 September 2024

Surface Analysis (KLA/Tencor Surfscan)
KLA.jpg
Location Bay 5
Tool Type Inspection, Test and Characterization
Manufacturer Tencor
Description Surface Analysis
KLA/Tencor Surfscan

Primary Supervisor Biljana Stamenic
(805) 893-4002
biljana@ece.ucsb.edu

Secondary Supervisor

Don Freeborn


Recipes


About

This system uses a laser-based scattering method to count size and distribution of particles (or other scattering defects) on a flat wafer surface.

It can scan wafers in size from 4 to 8 inches. Piece-parts are more difficult but can be scanned with a custom recipe.

4-inch wafers are the most standard size to measure.

For measuring very low particle counts accurately, purchase "low particle count" (LPC) wafers from a Silicon wafer vendor, and keep the wafers in the case and clean at all times until use.

Documentation

Operating Procedures

After the scan is complete you need to press ENTER on a small laptop. The Data will be saved on: Desktop/Local Disk (C)/Users/Public/Public Documentation/Users Nanofiles/YOUR FOLDER. The data will be saved as a photo.

  • Surfscan instructions [wafers different size, and pieces]:

Other Documentation

  • Operations Manual
    • For detailed measurement info, it is highly recommended that you read the manual.

Examples

A low-particle 4-inch wafer example:
Gain 4: Small Particles

(0.160µm – 1.60µm)

Gain 2: Large Particles

(1.60µm – 28.0µm)

Surfscan Low-Particle Example - G4.png Surfscan Low-Particle Example - G2.png
A high-particle 4-inch wafer example:
Gain 4: Small Particles

(0.160µm – 1.60µm)

Gain 2: Large Particles

(1.60µm – 28.0µm)

Surfscan - 230113A7 Gain4 high particles.jpg Surfscan 230113A7G2 after low particles.jpg