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Materials modification by electronic excitation / N. Itoh and A.M. Stoneham.

By: Itoh, Noriaki [author.].
Contributor(s): Stoneham, A. M [author.].
Material type: materialTypeLabelBookPublisher: Cambridge : Cambridge University Press, 2001Description: 1 online resource (xv, 520 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9780511541254 (ebook).Subject(s): Materials -- Effect of radiation on | Electronic excitation | Laser beams | Electron beamsAdditional physical formats: Print version: : No titleDDC classification: 620.1/1228 Online resources: Click here to access online
Contents:
Concepts: Excitation, polarons and electronic structure -- Energy deposition and redistribution in solids -- Electron-lattice coupling and its consequences -- Self-trapping -- Local lattice modification by electronic excitation of halides -- Local lattice modification by electronic excitation of crystalline insulating oxides -- Local lattice modification of semiconductors by electronic excitation -- Local lattice modification of amorphous materials by electronic excitation -- Atomic emission and surface modification -- Interface reactions induced by electronic excitation -- High excitation intensities -- Applications of materials modification by excitation.
Summary: Electronic excitation is a means to change materials properties. This book analyses the important features of the changes induced by electronic excitation, identifies what is critical, and provides a basis from which materials modification can be developed successfully. Electronic excitation by lasers or electron beams can change the properties of materials. In the last few years, there has been a mix of basic science, of new laser and electron beam tools, and of new needs from microelectronics, photonics and nanotechnology. This book extends and synthesises the science, addressing ideas like energy localisation and charge localisation, with detailed comparisons of experiment and theory. It also identifies the ways this understanding links to technological needs, like selective removal of material, controlled changes, altering the balance between process steps, and possibilities of quantum control. This book will be of particular interest to research workers in physics, chemistry, electronic engineering and materials science.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

1. Concepts: Excitation, polarons and electronic structure -- 2. Energy deposition and redistribution in solids -- 3. Electron-lattice coupling and its consequences -- 4. Self-trapping -- 5. Local lattice modification by electronic excitation of halides -- 6. Local lattice modification by electronic excitation of crystalline insulating oxides -- 7. Local lattice modification of semiconductors by electronic excitation -- 8. Local lattice modification of amorphous materials by electronic excitation -- 9. Atomic emission and surface modification -- 10. Interface reactions induced by electronic excitation -- 11. High excitation intensities -- 12. Applications of materials modification by excitation.

Electronic excitation is a means to change materials properties. This book analyses the important features of the changes induced by electronic excitation, identifies what is critical, and provides a basis from which materials modification can be developed successfully. Electronic excitation by lasers or electron beams can change the properties of materials. In the last few years, there has been a mix of basic science, of new laser and electron beam tools, and of new needs from microelectronics, photonics and nanotechnology. This book extends and synthesises the science, addressing ideas like energy localisation and charge localisation, with detailed comparisons of experiment and theory. It also identifies the ways this understanding links to technological needs, like selective removal of material, controlled changes, altering the balance between process steps, and possibilities of quantum control. This book will be of particular interest to research workers in physics, chemistry, electronic engineering and materials science.

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