DUV Stepper

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The deep-UV stepper FPA-3000EX4 from Canon is an advanced exposure system designed for mass-production of 6 and 8 inch wafers/ devices having a throughput of up to 90 wafers per hour. The largest applicable thickness of the wafers/ devices is 1,2 mm. Also 4" wafers/ devices can be processed with some restrictions concerning throughput, resolution, uniformity and maximum allowed wafer thickness. The system is equipped with a KrF Excimer laser from Cymer (wavelength 248 nm). Its projection lens’ NA is variable over a range between 0,4 and 0,6. Additionally, the partial coherence factor (σ) of the illumination system can be adjusted and different off-axis illumination modes can be selected.

The critical dimension (CD) of patterns that can be realized is specified at around 250nm for arbitrary formed patterns in the standard illumination mode (NA=0,6; σ =0,65). However, the best achievable resolution is different for each pattern type, pattern shape and pitch. So linewidths down to 160 nm could be achieved for geometrically simple patterns or pattern arrays (single and multiple line or pin-hole structures).

The user manual(s), quality control procedure(s) and results and contact information can be found in LabManager: Equipment info in LabManager

Process information

• Optimization and Simulation
• Reticle Design
• Process Instructions

Equipment performance and process related parameters

Purpose		Exposure system designed for mass/production of devices with linewidth down to 250nm
Specifications	Magnification	1:5
	Projection lens Numerical Aperture	0,4 - 0,60
	Illumination system's σ	0,2 - 0,75 (standard illumination mode: σ = 0,65)
	Exposure source	KrF laser
	Wavelength	248nm
	Illumination intensity	2800 W/m2
	Illumination uniformity	1,2%
	Maximum printed field size	22 x 26 mm (maximum on wafer)
	Alignment accuracy	3 sigma = 50 nm
Substrates	Substrate size	100 mm wafers (in trays) 150 mm wafers 200 mm wafers (requires tool change)
	Allowed materials	Any standard cleanroom material
	Batch	1 - 25

SÜSS Spinner-Stepper

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This spinner is dedicated for spinning DUV resists. The spinner is fully automatic and can run up to 25 substrates in a batch 4", 6", and 8" size (8" requires tool change). The machine is equipped with the 3 resist lines (DUV42S-6, KRF M230Y, and KRF M35G), an automatic syringe system and a solvent line for cleaning and back-side rinse.

The user manual, and contact information can be found in LabManager: Equipment info in LabManager

Process information

The spinning process will be performed by the customer together with the Photolith group of Nanolab. In case you would like to do DUV lithography please contact Lithography team, who will consult you and run your wafers together with you.

Information about resist can be found here:

• Bottom Anti Reflection Coating (BARC) DUV 42S-6 Datasheet DUV42S-6.
• Positive DUV resist for spin coating in 600-300nm thickness range KRF M230Y.
• Positive DUV resist for spin coating in 1600-800nm thickness range KRF M35G.
• Negative DUV resist for spin coating in 1400-800nm or diluted with EC Solvent in 1:1 in 400-200nm thickness range UVN2300-0.8.

Quality Control (QC)

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Quality Control (QC) for Spin coater: Süss Stepper - BARC DUV42S-6

The QC procedure for Spin coater: Süss Stepper The newest QC data for Spin coater: Süss Stepper QC Recipe: (1201) DCH 150mm BARC 65nm Substrate size 6" Resist volume 3 ml Spin-off speed 4700 rpm Spin-off time 30 s Soft bake temperature 175°C, contact Soft bake time 60 s QC limits Spin coater: Süss Stepper - BARC DUV42S-6 Nominal film thickness 65 nm Film thickness deviation from nominal <15% Film thickness non-uniformity <5% Spin-off speed will be adjusted if film thickness is outside the limit.

Standard processes

BARC DUV42S-6 coating sequences:

• (1201) DCH 150mm BARC 65nm Dispense 3ml@1000rpm; spin-off 30s@4700rpm; softbake 60s@175°C
• (1202) DCH 100mm BARC 65nm Dispense 1.6ml@1000rpm; spin-off 30s@3000rpm; softbake 60s@175°C

KRF M230Y coating sequences:

• (1301) DCH 150mm M230Y 360nm Dispense 3ml@1000rpm; spin-off 30s@2500rpm; softbake 90s@130°C
• (1302) DCH 100mm M230Y 360nm Dispense 1ml@1000rpm; spin-off 30s@2500rpm; softbake 90s@130°C

KRF M35G coating sequences:

• (1401) DCH 150mm M35G 750nm Dispense 3ml@1000rpm; spin-off 60s@5000rpm; softbake 90s@130°C
• (1402) DCH 100mm M35G 750nm Dispense 1ml@1000rpm; spin-off 60s@5000rpm; softbake 90s@130°C
• (1403) DCH 150mm M35G 1000nm Dispense 3ml@1000rpm; spin-off 60s@2630rpm; softbake 90s@130°C
• (1404) DCH 100mm M35G 1000nm Dispense 1ml@1000rpm; spin-off 60s@2630rpm; softbake 90s@130°C
• (1405) DCH 150mm M35G 1400nm Dispense 3ml@1000rpm; spin-off 60s@1310rpm; softbake 90s@130°C
• (1406) DCH 100mm M35G 1400nm Dispense 1ml@1000rpm; spin-off 60s@1310rpm; softbake 90s@130°C

Equipment performance and process related parameters

Purpose		Spin coating and soft baking of BARC Spin coating and soft baking of DUV resists Post exposure baking
Resist		BARC DUV42S-6 Positive tone resist KRF M230Y Positive tone resist KRF M35G Negative tone resist UVN2300-0.8
Performance	Coating thickness	BARC DUV42S-6 60-90nm Positive tone resist KRF M230Y 300-600nm Positive tone resist KRF M35G 800-1600nm Negative tone resist UVN2300-0.8 200-1400nm
Process parameters	Spin speed	10 - 5000 rpm
	Spin acceleration	100 - 10000 rpm/s
	Hotplate temperature	175°C for BARC baking 130°C for positive tone resist soft baking and post exposure baking 100°C for negative tone resist soft baking and post exposure baking
Substrates	Substrate size	100 mm wafers 150 mm wafers 200 mm wafers (requires tool change)
	Allowed materials	Any standard cleanroom material
	Batch	1 - 25

Developer TMAH Stepper

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This developer is dedicated for development of DUV resists. The developer is fully automatic and can run up to 25 substrates in a batch 4", 6", and 8" size (8" requires tool change). The machine is equipped with 1 developer line, in our case 2,38% TMAH in water (AZ 726 MIF), 1 topside rinse line with water, 1 backside rinse line with water and 1 N2 line for drying.

The user manual and contact information can be found in LabManager: Equipment info in LabManager

Process information

The development process will be performed by the customer together with the Photolith group of DTU Nanolab. In case you would like to do DUV lithography please contact Lithography team, who will consult you and run your wafers together with you.

Here you can find a chart‎ demonstrating a dependence between 250 nm line width/pillars diameter and exposure dose.

Standard processes

Post-exposure bake sequences:

• (1000) DCH PEB 130C 60s 60s baking at 130°C; 20s cooling
• (1001) DCH PEB 130C 90s 90s baking at 130°C; 20s cooling

Development sequences:

• (1004) DCH DEV 60s 60s single puddle development

Combined PEB and development sequences:

• (1002) DCH PEB_60s and DEV_60s 60s baking at 130°C followed by 60s single puddle development
• (1003) DCH PEB_90s and DEV_60s 90s baking at 130°C followed by 60s single puddle development

The standard developer process consists of:

• pre-wetting with water (2.5s @ 1000rpm)
• developer dispense (2.5s @ 40rpm, corresponding to ~9ml)
• development (60s @ 0rpm)
• water rinse with BSR (5s @ 3000rpm)
• nitrogen drying (7s @ 4000rpm)

and has a cycle time of ~2 minutes

Equipment performance and process related parameters

Purpose		Development of DUV resist: KRF M230Y and KRF M35G
Developer		2,38% water based TMAH
Process parameters	Spin speed	10 - 5000 rpm
	Spin acceleration	100 - 10000 rpm/s
	Hotplate temperature	130°C for post exposure baking
Substrates	Substrate size	100 mm wafers 150 mm wafers 200 mm wafers (requires tool change)
	Allowed materials	Any standard cleanroom material
	Batch	1 - 25