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Vacuum plating : ウィキペディア英語版
Vacuum deposition

Vacuum deposition is a family of processes used to deposit layers of material atom-by-atom or molecule-by-molecule on a solid surface. These processes operate at pressures well below atmospheric pressure (i.e. vacuum). The deposited layers can range from a thickness of one atom up to millimeters, forming freestanding structures. Multiple layers of different materials can be used, for example to form optical coatings.
When the vapor source is a liquid or solid the process is called physical vapor deposition (PVD). When the source is a chemical vapor precursor the process is called chemical vapor deposition (CVD). The latter has several variants: ''low-pressure chemical vapor deposition'' (LPCVD), ''plasma-enhanced CVD'' (PECVD), and ''plasma-assisted CVD'' (PACVD). Often a combination of PVD and CVD processes are used in the same or connected processing chambers.
The vacuum environment may serve one or more purposes:
* reducing the particle density so that the mean free path for collision is long
* reducing the particle density of undesirable atoms and molecules (contaminants)
* providing a low pressure plasma environment
* providing a means for controlling gas and vapor composition
* providing a means for mass flow control into the processing chamber.
Condensing particles can be generated in various ways:
* thermal evaporation, Evaporation (deposition)
* sputtering
* cathodic arc vaporization
* laser ablation
* decomposition of a chemical vapor precursor, chemical vapor deposition
In reactive deposition the depositing material reacts either with a component of the gaseous environment (Ti + N → TiN) or with a co-depositing species (Ti + C → TiC). A plasma environment aids in activating gaseous species (N2 → 2N) and in decomposition of chemical vapor precursors (SiH4 → Si + 4H). The plasma may also be used to provide ions for vaporization by sputtering or for bombardment of the substrate for sputter cleaning and for bombardment of the depositing material to densify the structure and tailor properties (ion plating).
==Applications==

*Electrical conduction: metallic films, transparent conductive oxides (TCO), superconducting films & coatings
*Semiconductor devices: semiconductor films, electrically insulating films
*Solar cells.
*Optical films: anti-reflective coatings, optical filters
*Reflective coatings: mirrors, hot mirrors
*Tribological coating: hard coatings, erosion resistant coatings, solid film lubricants
*Energy conservation & generation: low emissivity glass coatings, solar absorbing coatings, mirrors, solar thin film photovoltaic cells, ''smart'' films
*Magnetic films: magnetic recording
*Diffusion barrier: gas permeation barriers, vapor permeation barriers, solid state diffusion barriers
*Corrosion protection:
*Automotive applications: lamp reflectors and trim applications
A thickness of less than one micrometre is generally called a thin film while a thickness greater than one micrometre is called a coating.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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