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Processes and device for the deposition of films on substrates

a technology of substrates and processes, applied in the direction of electrolysis components, vacuum evaporation coatings, coatings, etc., can solve the problems of interfacial roughness, intermixing of adjacent layers, thickness errors and deviations of the density of deposited materials from bulk density, so as to improve current deposition processes and devices, and better control the energy contribution

Inactive Publication Date: 2005-07-14
CARL ZEISS SMT GMBH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0012] It is the object of the present invention to improve current deposition processes and devices to better control the energy contribution at different stages of the deposition.

Problems solved by technology

The main limiting factors are the formation of interfacial roughness, intermixing of adjacent layers, contamination of layers, thickness errors and deviation of the density of deposited materials from bulk densities.

Method used

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  • Processes and device for the deposition of films on substrates
  • Processes and device for the deposition of films on substrates
  • Processes and device for the deposition of films on substrates

Examples

Experimental program
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example 1

[0044] A 50×[BL2 / Si / BL1 / Mo] multilayer is produced having a period of around 7.0 nm where Mo and Si are the basic materials of the multilayer, and BL1 and BL2 are thin barrier layers to protect the basic materials against interdiffusion. The materials of the barrier layers can be single elements or compounds. An electron gun with two targets will be used to deposit Si and Mo. They are set at a distance of about 100 cm from the substrate. Two magnetrons will be used for depositing material BL1 and BL2. They operate with Kr gas and are set at a distance of about 35 cm from the substrate during deposition. The magnetrons will operate in the balanced mode, i.e. the magnetic field lines are closed in the magnetron which confines most ionized particles close to the source. An ion source is used for polishing with krypton ions of 150 eV The substrate is moving from one deposition source to the other providing alternative exposures in front of every material target using the following indiv...

example 2

[0048] A 50×[BL2 / Si / BL1 / Mo] multilayer is produced having a period of around 7.0 nm where Mo and Si are the basic materials of the multilayer, and BL1 and BL2 are thin barrier layers to protect the basic materials against interdiffusion. The materials of the barrier layers can be single elements or compounds. Four magnetrons will be used for the following materials: molybdenum (Mo), material BL1 (BL1), silicon (Si), and material BL2 (BL2). They operate with Kr gas and are set at a distance of about 25 cm from the substrate during deposition of every material. All magnetrons operate in the balanced mode, i.e. magnetic field lines are closed in the magnetron which confines most ionized particles close to the source. The substrate is moving from one magnetron to the other providing alternative exposures in front of every material target using the following individual schemes.

[0049] Deposition of Mo-layer: To avoid intermixing with the previous layer at the beginning, the Mo-magnetron ...

example 3

[0052] A 50×[SiC / Si / Mo2C / Mo] multilayer is produced having a period of around 7.0 nm where Mo and Si are the basic materials of the multilayer, and Mo2C and SiC are compounds used as thin barrier layers to protect the basic materials against interdiffusion. Three magnetrons will be used with the following materials: molybdenum (Mo), carbon (C), and silicon (Si). Argon is used as working gas. All magnetrons operate in the balanced mode and are set at a distance of about 30 cm from the substrate during the deposition of every material. The substrate is moving from one magnetron to the other providing alternative exposures in front of every material target using the following individual schemes.

[0053] Deposition of Mo layer: To avoid intermixing with the previous layer at the beginning, the Mo-magnetron operates in the scheme providing thermalized particles. For this, the magnetron operates in the balanced mode, and the working gas pressure is set to ca. 8×10−4 mbar. When the thicknes...

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Abstract

It is in the object of the present invention to improve current deposition processes and devices for the fabrication of multilayer systems to better control the energy contribution at different stages of the deposition. This is achieved by depositing films by sputtering in a scheme providing for thermalized particles. One can get thermalized particles by choosing the working gas pressure and the distance between target and substrate to result in a mean free path of particles smaller than the distance between target and substrate or to result in a product of pressure and distance being larger than 2.0 cmPa.

Description

BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to processes for the deposition or etching of films on substrates, especially on the fabrication of multilayer systems. [0003] The present invention also relates to devices for the deposition or etching of films on substrates, especially for the fabrication of multilayer systems in particular such devices comprising a substrate holder and at least one deposition source with target. [0004] 2. Description of the Related Art [0005] Reflecting multilayer structures for the reflection of short wavelength electromagnetic rays are used e.g. in semiconductor lithography. They are used especially in the extreme ultraviolet and soft x-ray wavelength range. The extreme ultraviolet wavelength range (EUV) is the transition range between the ultraviolet and the soft x-ray range and generally comprises the wavelengths from approximately 16 nm to approximately 10 nm. The soft x-ray range generally comp...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C23C14/02C23C14/06C23C14/14C23C14/30C23C14/32C23C14/35C23C14/56C23C14/58
CPCC23C14/024C23C14/0635C23C14/14C23C14/5833C23C14/351C23C14/568C23C14/30
Inventor YAKSHIN, ANDREY E.FUKAREK, WOLFGANG
Owner CARL ZEISS SMT GMBH