Taurion 800/1100

Maintenance free plasma source

Filament less

Homogenous distribution of ion energy

Extremely stable and reproducible operation

Well suited for very long process runs

Operable with pure oxygen

Modular and flexible

Low operating costs

EU conformity

Application

New challenges in optics and ophthalmics request steady development of the coating techniques and the related systems and accessories. Today state-of-the-art processes include standard PVD (cold or hot), Ion plating, Ion assisted deposition or PVD with APS. Stable, i.e. shift-free layers are generally the consequence of using sophisticated procedures such as IP, IAD and/or APS.

Plasma enhanced PVD is a further member in the PVD process family used in optics and ophthalmics. The RF excited plasma source can be operated with pure oxygen and/or argon and is much lower in its operating costs than other comparable technologies.

Design

TAURION 800 is a fully automatic, cubic, RF-plasma enhanced evaporation batch coating system with a calotte diameter of 800/1100 mm for RFPE-PVD processes.

The high vacuum evaporation system includes a filament free and low maintenance RF plasma source with 122 mm and 265 mm exit diameter.

The basic TAURION 800/1100 system consists of a water heated/cooled chamber and door including rotary drive, water battery on frame and power rack. The fully automatic PC control ensures an operator friendly handling. The system can be equipped with either cryo or oil diffusion high vacuum pump and a standard or dry forevacuum pump set including vacuum pressure monitoring.

Accessories

Substrate holder 800/1100 mm of diameter
Calotte and/or quartz radiant substrate heaters
Resistively heated and/or e-beam evaporation devices, incl. pneumatic shutters – Evaporation rate and layer thickness monitor
Optical monitor on request

Typical Applications

ITO-Indium Tin Oxide – Semiconductor Application

Transmission of a non tempered ITO Layer made on a Taurion with RF-Plasma Specific resistance of 4.0 E-4 Ùcm, optimized for a wave length of 465 nm, layer thickness 220 nm

Taurion 800/1100 Typical Optical Processes

Shift free filters – Precision Optics Application I

Application Edge filter, 17 layers

Design (1/8H 1/4L 1/8H) 8

Materials L= SiO2 H= Ta205

Substrate BK7 test glass

Test with additional annealing of coated substrates Analysis Measurement of spectral characteristic before and after annealing Interpretation Alteration of long wave edge at 50% and width at 20% Parameter tempering 300°C for 8 hours

Result

Shift after annealing < 0.2 nm measured at the long wave egde at 50%.

Absorption free oxide layers – Precision Optics Application II

1 1/4 Lamda of Ta205 on B270

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