Apparatus for plasma-enhanced physical vapor deposition of copper with RF source power applied through the workpiece

a technology of rf source power and apparatus, applied in vacuum evaporation coating, electric discharge tubes, coatings, etc., can solve the problems of consuming production time, high production cost, adding cost, and entail some additional expens

Inactive Publication Date: 2006-08-03
APPLIED MATERIALS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0012] A method of performing physical vapor deposition of copper onto an integrated circuit in a vacuum chamber of a plasma reactor includes providing a copper target near a ceiling of the chamber, placing an integrated circuit wafer on a wafer support pedestal facing the target near a floor of the chamber, introducing a carrier gas into the vacuum chamber, maintaining a target-sputtering plasma at the target to produce a stream comprising at least one of copper atoms and copper ions flowing from the target toward the wafer support pe...

Problems solved by technology

Because copper tends to diffuse over time through the insulator layer to cause catastrophic short circuiting, a barrier layer that blocks copper diffusion is placed between the copper material and the dielectric material wherever the two materials interface in the integrated circuit.
A problem arises in forming the vias extending vertically between the horizontal interconnect layers, as follows.
The interruption represented by the selective removal of the barrier layer entails a higher production cost and consumes production time.
While this dual-purpose reactor works extremely well, it does entail some additional expense.
In order to avoid process contamination, the re-sputtering coil is formed of pure tantalum, adding cost.
One problem is that the metal vapor deposition process can coat the ceiling with metal and thereby block inductive coupling from the coil antenna.
A more significant problem is that the RF plasma produced by the coil produces a high pro...

Method used

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  • Apparatus for plasma-enhanced physical vapor deposition of copper with RF source power applied through the workpiece
  • Apparatus for plasma-enhanced physical vapor deposition of copper with RF source power applied through the workpiece
  • Apparatus for plasma-enhanced physical vapor deposition of copper with RF source power applied through the workpiece

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Embodiment Construction

[0031] A plasma reactor forms barrier layers (such as a tantalum / tantalum nitride film or titanium / titanium nitride film) for conductors (such as copper, for which the barrier should be tantalum / tantalum nitride) in trenches or through vias between successive interconnection layers of an integrated circuit. The plasma reactor is capable of both physical vapor deposition and of highly selective re-sputtering to remove barrier material from the exposed horizontal surfaces of the underlying conductor constituting the floor of the via. Significantly, the reactor accomplishes all this without an internal coil that had previously been required for a fully and precisely controllable re-sputtering step. Instead, a plasma is formed near the wafer to perform the re-sputtering step. For this purpose a process gas such as argon may be introduced and source power is applied to the wafer at an RF frequency effective for capacitively coupling energy to kinetic electrons to excite argon plasma ions...

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Abstract

A method of performing physical vapor deposition of copper onto an integrated circuit in a vacuum chamber of a plasma reactor includes providing a copper target near a ceiling of the chamber, placing an integrated circuit wafer on a wafer support pedestal facing the target near a floor of the chamber, introducing a carrier gas into the vacuum chamber, maintaining a target-sputtering plasma at the target to produce a stream comprising at least one of copper atoms and copper ions flowing from the target toward the wafer support pedestal for vapor deposition, and maintaining a wafer-sputtering plasma near the wafer support pedestal by capacitively coupling plasma RF source power to the wafer-sputtering plasma. The frequency of the RF source power is sufficiently high to limit ion energy near the surface of the wafer so that the principal portion of the power provides plasma ion generation. The method further includes maintaining the RF source power at a sufficiently high level to deposit a conformal layer of copper on vertical and horizontal surfaces of the workpiece.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application is a continuation-in-part of U.S. patent application Ser. No. 11 / 052,011, filed Feb. 3, 2005 entitled “APPARATUS FOR METAL PLASMA VAPOR DEPOSITION AND RE-SPUTTER WITH SOURCE AND BIAS POWER FREQUENCIES APPLIED THROUGH THE WORKPIECE” by Karl M. Brown, et al. and assigned to the present assignee.BACKGROUND OF THE INVENTION [0002] With recent technological advances in integrated circuit design, there are now as many as six to ten interconnect layers of a multilayer interconnect structure overlying the semiconductor transistors. Insulator layers separate the successive conductor layers. The conductor interconnect layers can have completely different conductor patterns and are connected to one another and to the transistor layer at different locations through vias extending vertically through the insulator layers. It is the formation of the vias with which the present invention is concerned. [0003] To reduce resistive power l...

Claims

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Application Information

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IPC IPC(8): H01L21/44
CPCC23C14/046C23C14/345C23C14/358H01J37/32082H01L21/76844H01J37/3408H01L21/2855H01L21/76843H01J37/32706
Inventor BROWN, KARL M.PIPITONE, JOHNMEHTA, VINEETHOFMANN, RALF
Owner APPLIED MATERIALS INC
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