R. Eddy scite author profile

Abstra,ct-Electrostatic wafer platens (ESPs) for ion implant systems offer enormous benefits in manufacturing productivity. This paper describes and compares the performance of the standard clamp in current use in more than 50 user sites with a new cooled platen design. As would be expected the ESP platens do not affect dosing, charging, or front side particulates. Device damage from the ESP is not an issue because of the safe AC operating mode. Cooling performance of 1 watt/cm* for 200mm wafers using nitrogen as the cooling gas has been obtained. Tests indicate that backside particles are dependent on the surface smoothness of the platen and the smoothness of the back side of the wafer being clamped.uses a six sector electrode configuration with three phase operation. The electrode configuration is a bit more complex as explained below and the dielectric is a single circular sheet of alumina, but otherwise the design and operation are the same as the six segment design. The one piece dielectric design allows low leakage gas cooling operation. In fact, with gas cooling the newer platen is capable of providing more than 1 watt/cm2 of cooling with a wafer temperature not exceeding 100" C. PLATEN DESIGN FEATURES

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Characterization of a high current ultra low energy ion implanter

Ranganathan

Krull²,

Sundstrom³

et al.

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Advances in cross-contamination control using single-wafer, high-current implantation

Todorov

Bertuch²,

Piscitello³

et al.

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Contamination Control in Ion Implantation

Eddy¹,

Doi²,

Santos³

et al. 2011

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R. Eddy

Applications of surface analytical techniques for metals reduction in ion implantation

Production proven electrostatic platen for medium current implantation

Characterization of a high current ultra low energy ion implanter

Advances in cross-contamination control using single-wafer, high-current implantation

Contamination Control in Ion Implantation

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