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What Is RF Sputtering?

RF sputtering is used to create thin films, like those found in the computer industry.
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  • Written By: M. Walker
  • Edited By: Allegra J. Lingo
  • Last Modified Date: 22 November 2014
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Radio frequency (RF) sputtering is a technique that is used to create thin films, such as those found in the computer and semiconductor industry. Like direct current (DC) sputtering, this technique involves running an energetic wave through an inert gas to create positive ions. The target material, which will ultimately become the thin film coating, is struck by these ions and broken up into a fine spray that covers the substrate, the inner base of the thin film. RF sputtering differs from DC sputtering in the voltage, system pressure, sputter deposition pattern, and ideal type of target material.

During the sputtering process, the target material, substrate, and RF electrodes begin in a vacuum chamber. Next, the inert gas, which is usually argon, neon, or krypton, depending on the size of the target material’s molecules, is directed into the chamber. The RF power source is then turned on, sending radio waves through the plasma to ionize the gas atoms. Once the ions begin to contact the target material, it is broken into small pieces that travel to the substrate and begin to form a coating.

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Since RF sputtering uses radio waves instead of a direct electron current, it has different requirements and effects on the sputtering system. For instance, DC systems require between 2,000 and 5,000 volts, while RF systems require upwards of 1012 volts to achieve the same rate of sputter deposition. This is largely because DC systems involve the direct bombardment of the gas plasma atoms by electrons, while RF systems use energy to remove the electrons from the gas atoms’ outer electron shells. The creation of the radio waves requires more power input to achieve the same effect as an electron current. While a common side effect of DC sputtering involves a charge build-up on the target material from the large number of ions in the chamber, overheating is the most common issue with RF systems.

As a result of the different powering method, the inert gas plasma in an RF system can be maintained at a much lower pressure of less than 15 mTorr, compared to the 100 mTorr necessary for optimizing DC sputtering. This allows for fewer collisions between the target material particles and the gas ions, creating a more direct pathway for the particles to travel to the substrate material. The combination of this decreased pressure, along with the method of using radio waves instead of a direct current for the power source, makes RF sputtering ideal for target materials that have insulating qualities.

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anon978335
Post 5

Can someone tell me how the dc plasma works, or recommend some simple literature?

anon357673
Post 4

RF sputtering is used when the target material is an insulator (glass, ceramics) as the article states. It is used when the target can not be used as the cathode.

everetra
Post 2

@David09 - Sputtering is not that new actually. I’ve heard of something called gold sputtering which uses similar processes to create gold films on a surface.

I don’t know if they use RF waves or whatever, but the principle is the same. They use it for gold jewelry and even electronics as well. It allows for an smooth, even distribution of the gold on the surface. This may be how they create gold plated products as well.

David09
Post 1

That is a very sophisticated method of creating films for computer components. I had always thought that the films were created through a more direct method like spraying a fine metal mist.

Using radio waves means that you’re working at the invisible spectrum to create that sputter coating on the object. I’m still not sure why this method was ever invented since it demands so much more in the way of power, but one theory I have is that electronic components are becoming microscopically small.

As we head into the use of nanotechnology, which involves the use of particles in the atomic or even subatomic level, we will need some way of working at that level. Perhaps RF sputtering can get the job done. That’s just my opinion.

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