The scientific underpinnings of plasma applications are multidisciplinary and include elements of electrodynamics, atomic science, surface science, computer science, and industrial process control.
Because of the diversity of applications and the multidisciplinary nature of the science, scientific understanding lags technology. A summary of the many industrial applications of plasma-based systems for processing materials is included in Chapter 2.
The plasma equipment industry is an integral part of the electronics industry and has experienced dramatic growth in recent years because of the increasing use of plasma processes to meet the demands of fabricating devices with continually shrinking dimensions.
In this country, the plasma equipment industry is composed of many small companies loosely connected to integrated circuit manufacturers.
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This study focuses on the plasma processing of materials, a technology that impacts and is of vital importance to several of the largest manufacturing industries in the world.Foremost among these industries is the electronics industry, in which plasma-based processes are indispensable for the manufacture of very large-scale integrated (VLSI) microelectronic circuits (or chips).Plasma processing of materials is also a critical technology in the aerospace, automotive, steel, biomedical, and toxic waste management industries.In Chapter 2, the panel categorizes different kinds of plasmas and focuses on properties of man-made low-energy, highly collisional plasmas that are particularly useful in materials processing applications.The outstanding properties of most plasmas applied to processing of materials are associated with nonequilibrium conditions.For the electronics industry more than for any other considered by the panel, the impact of—and the critical and urgent need for—plasma-based materials processing is overwhelming.Thus Chapter 3 further elucidates plasma processing of electronic materials and, in particular, the use of plasmas in fabricating microelectronic components.Plasmas alter the normal pathways through which chemical systems evolve from one stable state to another, thus providing the potential to produce materials with properties that are not attainable by any other means.Applications of plasma-based systems used to process materials are diverse because of the broad range of plasma conditions, geometries, and excitation methods that may be used.We are not a “paper mill.” What you receive is one-on-one, personalized thesis, dissertation, and capstone consulting services to help you produce a research proposal, thesis, dissertation, or capstone project that conforms to scholarly writing standards and that is earned legitimately.Chapter Six is the final part of your dissertation and just as important as the preceding chapters.