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Photonics Dictionary

ion-beam sputtering

Ion-beam sputtering (IBS) is a physical vapor deposition (PVD) technique used for depositing thin films onto substrates. It involves bombarding a target material with a beam of energetic ions, typically inert gases such as argon, to dislodge atoms from the target surface. These dislodged atoms are then deposited onto a substrate, forming a thin film.

Here is a breakdown of the process:

Ion bombardment: In ion-beam sputtering, ions are accelerated to high energies and directed towards a target material. Upon impact with the target surface, the ions transfer their momentum to the atoms in the target, causing them to be ejected from the surface.

Sputtered material deposition: The atoms ejected from the target material travel through the vacuum chamber and deposit onto a substrate positioned opposite the target. This deposition forms a thin film on the substrate surface.

Controlled deposition: The properties of the deposited thin film can be controlled by adjusting various parameters such as the ion beam energy, angle of incidence, target material composition, and deposition time. These parameters influence the film's thickness, composition, microstructure, and other properties.

Ion-beam sputtering offers several advantages over other thin-film deposition techniques:

Precise control: IBS allows for precise control over film thickness, composition, and microstructure, making it suitable for applications requiring high-quality thin films with specific properties.

Uniform deposition: The ion beam provides uniform coverage of the substrate surface, resulting in uniform film thickness across large areas.

High purity: Since the sputtered material comes directly from the target, IBS can produce high-purity thin films without contamination from other sources.

Compatibility with various materials: Ion-beam sputtering can be used to deposit thin films of various materials, including metals, oxides, nitrides, and semiconductors.

Due to these advantages, ion-beam sputtering is widely used in industries such as optics, electronics, and materials science for applications such as optical coatings, semiconductor device fabrication, and surface engineering.

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