Stepper 3 (ASML DUV)

Stepper 3 (ASML DUV) Tool Type Lithography Location Bay 7 Supervisor Demis D. John Supervisor Phone (805) 893-5934 Supervisor E-Mail demis@ucsb.edu Description ASML PAS 5500/300 DUV Stepper Manufacturer ASML Lithography Recipes Sign up for this tool

About

The ASML 5500 stepper is a 248nm DUV stepper for imaging dense features down to below 200nm and isolated line structures down to below 150nm. Overlay accuracy is better than 30nm.

The system is configured for 4” wafers and, with staff support, mounted pieces down to 14mm in size can be exposed using a 4” wafer as a carrier. The system is designed for high throughput, so shooting multiple 4" wafers is extremely fast. Additionally, exposure jobs are highly programmable, allowing for very flexible exposures of multiple aligned patterns from multiple masks in a single session, allowing for process optimization of large vs. small features in a single lithography.

The full field useable exposure area is limited to the intersection of a 31mm diameter circle and a rectangle of dimensions 22mm x 27mm. See the Mask Making Guidelines page for more info on exposure field sizes and how to order your mask plates.

Resists Used (see PhotoLith. Recipes for full process info):

• UV210-0.3 - Positive: 300nm nominal thickness
• UV6-0.8 - Positive: 800nm nominal thickness
• UV26-2.5 - Positive: 2.5um nominal thickness
• UVN2300-0.5 - Negative: 500nm nominal thickness

• DUV42P-6/DS-K101 - Bottom Anti-Reflective Coatings “BARC”
• PMGI/LOL1000/LOL2000 - Underlayers

AZ300MIF Developer for all processes

Process Information

• Process Recipes Page > "Stepper 3" - Established recipes and corresponding linewidths, photoresists etc.
• Sample size: 100 mm wafers with SEMI std. major flat
  • Piece-parts process is possible but difficult - contact staff for info
• Alignment Accuracy: < 50 nm
• Minimum Feature Size: ≤150 nm isolated lines, ≤200 nm dense patterns
• Maximum Wafer Bow: approx. 100 µm. (4-inch diam.)
  • Near this value, and the job may fail or lose the wafer inside the machine due to wafer vacuum error.

Operating Procedures

• Standard Operating Procedures - Exposing wafers, loading reticles, focus/exposure matrix
  • Focus-Exposure Matrix - used for calibrating sensitive exposure parameters
• Job Programming - Full
• Job Programming- Simplified -Full Wafers

Troubleshooting and Recovery

• Error Recovery, Troubleshooting and Calibration
  • Common errors/System Warnings, Wafer Handler Reset, System Calibration Verification

• ASML 5500: Recovering from an Error/Wafer Retrieval
  • How to abort the job and recover your wafer.

Software Options

• Shifted Measurement Scans - better tilt/level measurement locations for edge-die. Simply enable the Checkbox in your job file.
• Compound Image Design - flexible Image Distribution: grouping of Images with shifts, duplicate instances of Images in each Cell.
• Job Creator - create binary ASML job files from ASCII text files. Python scripting capabilities using this option are currently implemented, see below.

Design & Fabrication Tools

• ASML 5500 Mask Making Guidelines - All the info you need to design and order a reticle for this system.
  • Templates and CAD help - on the above page, CAD files and spreadsheets to help you design/program.
• ASML Job Creator - Python scripts for generating ASML Job Files.
  • This new scriptable job programming is in the user-testing phase - contact the supervisor if interested.
• UCSB Test Reticles - Alignment Markers, Resolution Testing etc.

Recipes

See the Recipes > Lithography > Stepper Recipes > Stepper #3 page for starting processes for various photoresists, including Dose/Focus values.

Litho. recipes for all our photolith. tools can be found on the Photolithography Recipes page.

Service Provider

• ASML - ASML performs quarterly periodic maintenance and provides on-demand support.