Ion Beams in Nanoscience and Technology
Herausgegeben:Hellborg, Ragnar; Whitlow, Harry J.; Zhang, Yanwen
Ion Beams in Nanoscience and Technology
Herausgegeben:Hellborg, Ragnar; Whitlow, Harry J.; Zhang, Yanwen
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Energetic ion beam irradiation is the basis of a wide plethora of powerful research- and fabrication-techniques for materials characterization and processing on a nanometre scale. This book will benefit those working in the field.
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Energetic ion beam irradiation is the basis of a wide plethora of powerful research- and fabrication-techniques for materials characterization and processing on a nanometre scale. This book will benefit those working in the field.
Produktdetails
- Produktdetails
- Particle Acceleration and Detection
- Verlag: Springer / Springer Berlin Heidelberg / Springer, Berlin
- Artikelnr. des Verlages: 978-3-642-26137-4
- 2010
- Seitenzahl: 484
- Erscheinungstermin: 14. März 2012
- Englisch
- Abmessung: 235mm x 155mm x 27mm
- Gewicht: 746g
- ISBN-13: 9783642261374
- ISBN-10: 364226137X
- Artikelnr.: 34563144
- Particle Acceleration and Detection
- Verlag: Springer / Springer Berlin Heidelberg / Springer, Berlin
- Artikelnr. des Verlages: 978-3-642-26137-4
- 2010
- Seitenzahl: 484
- Erscheinungstermin: 14. März 2012
- Englisch
- Abmessung: 235mm x 155mm x 27mm
- Gewicht: 746g
- ISBN-13: 9783642261374
- ISBN-10: 364226137X
- Artikelnr.: 34563144
Trends in nanoscience and technology.- Nanoscale Engineering in the Biosciences.- High Speed Electronics.- Surface Modification Using Reactive Landing of Mass-Selected Ions.- Basic ion-matter interactions in nanometre scale materials.- Basics of Ion Scattering in Nanoscale Materials.- Box 1: Stopping of Ions in Nanomaterials.- Box 2: Sputtering.- Box 3: Ion Ranges.- Computer Simulation Methods for Defect Configurations and Nanoscale Structures.- Characterising Nanoscale Crystal Perfection by Crystal Mapping.- Box 4: Interatomic Potential.- Ion beam characterisation of nanoscale materials.- Medium Energy Ion Scattering for Near Surface Structure and Depth Profiling.- Box 5: Surface Crystallography Terminology.- Thin Film Characterisation Using MeV Ion Beams.- Nanoscale Materials Defect Characterisation.- Box 6: Nanoscale Defects.- Box 7: Diagnostic Ion Beam Luminescence.- Nanomaterials Science with Radioactive Ion Beams.- Nanoscale materials processing with ion beams.- Nanocluster and Nanovoid Formation by Ion Implantation.- Plasma Etching and Integration with Nanoprocessing.- Focused Ion Beam Machining and Deposition.- Box 8: Sample Preparation for Transmission Electron Microscopy Using a Focused Ion Beam.- Box 9: Integrated Circuit Chip Modification Using Focused Ion Beams.- Proton Beam Writing: A New 3D Nanolithographic Technique.- Box 10: Proton Beam Writing of Optical Structures.- Box 11: Tissue Engineering and Bioscience Methods Using Proton Beam Writing.- Box 12: Stamps for Nanoimprint Lithography.- Box 13: Silicon Micro/Nano-Fabrication Using Proton Beam Writing and Electrochemical Etching.- Nanoscale Materials Modification for Device Applications.- Luminescence, Ion Implantation, and Nanoparticles.- Micro- and Nanoengineering with Ion Tracks.- Equipment and practice.- Ion Accelerators for Nanoscience.- Focusing keV and MeV Ion Beams.- Ion Spectrometers and Detectors.- Electronics for Application of Ion Beams in Nanoscience.
Trends in nanoscience and technology.- Nanoscale Engineering in the Biosciences.- High Speed Electronics.- Surface Modification Using Reactive Landing of Mass-Selected Ions.- Basic ion-matter interactions in nanometre scale materials.- Basics of Ion Scattering in Nanoscale Materials.- Box 1: Stopping of Ions in Nanomaterials.- Box 2: Sputtering.- Box 3: Ion Ranges.- Computer Simulation Methods for Defect Configurations and Nanoscale Structures.- Characterising Nanoscale Crystal Perfection by Crystal Mapping.- Box 4: Interatomic Potential.- Ion beam characterisation of nanoscale materials.- Medium Energy Ion Scattering for Near Surface Structure and Depth Profiling.- Box 5: Surface Crystallography Terminology.- Thin Film Characterisation Using MeV Ion Beams.- Nanoscale Materials Defect Characterisation.- Box 6: Nanoscale Defects.- Box 7: Diagnostic Ion Beam Luminescence.- Nanomaterials Science with Radioactive Ion Beams.- Nanoscale materials processing with ion beams.- Nanocluster and Nanovoid Formation by Ion Implantation.- Plasma Etching and Integration with Nanoprocessing.- Focused Ion Beam Machining and Deposition.- Box 8: Sample Preparation for Transmission Electron Microscopy Using a Focused Ion Beam.- Box 9: Integrated Circuit Chip Modification Using Focused Ion Beams.- Proton Beam Writing: A New 3D Nanolithographic Technique.- Box 10: Proton Beam Writing of Optical Structures.- Box 11: Tissue Engineering and Bioscience Methods Using Proton Beam Writing.- Box 12: Stamps for Nanoimprint Lithography.- Box 13: Silicon Micro/Nano-Fabrication Using Proton Beam Writing and Electrochemical Etching.- Nanoscale Materials Modification for Device Applications.- Luminescence, Ion Implantation, and Nanoparticles.- Micro- and Nanoengineering with Ion Tracks.- Equipment and practice.- Ion Accelerators for Nanoscience.- Focusing keV and MeV Ion Beams.- Ion Spectrometers and Detectors.- Electronics for Application of Ion Beams in Nanoscience.
Trends in nanoscience and technology.- Nanoscale Engineering in the Biosciences.- High Speed Electronics.- Surface Modification Using Reactive Landing of Mass-Selected Ions.- Basic ion-matter interactions in nanometre scale materials.- Basics of Ion Scattering in Nanoscale Materials.- Box 1: Stopping of Ions in Nanomaterials.- Box 2: Sputtering.- Box 3: Ion Ranges.- Computer Simulation Methods for Defect Configurations and Nanoscale Structures.- Characterising Nanoscale Crystal Perfection by Crystal Mapping.- Box 4: Interatomic Potential.- Ion beam characterisation of nanoscale materials.- Medium Energy Ion Scattering for Near Surface Structure and Depth Profiling.- Box 5: Surface Crystallography Terminology.- Thin Film Characterisation Using MeV Ion Beams.- Nanoscale Materials Defect Characterisation.- Box 6: Nanoscale Defects.- Box 7: Diagnostic Ion Beam Luminescence.- Nanomaterials Science with Radioactive Ion Beams.- Nanoscale materials processing with ion beams.- Nanocluster and Nanovoid Formation by Ion Implantation.- Plasma Etching and Integration with Nanoprocessing.- Focused Ion Beam Machining and Deposition.- Box 8: Sample Preparation for Transmission Electron Microscopy Using a Focused Ion Beam.- Box 9: Integrated Circuit Chip Modification Using Focused Ion Beams.- Proton Beam Writing: A New 3D Nanolithographic Technique.- Box 10: Proton Beam Writing of Optical Structures.- Box 11: Tissue Engineering and Bioscience Methods Using Proton Beam Writing.- Box 12: Stamps for Nanoimprint Lithography.- Box 13: Silicon Micro/Nano-Fabrication Using Proton Beam Writing and Electrochemical Etching.- Nanoscale Materials Modification for Device Applications.- Luminescence, Ion Implantation, and Nanoparticles.- Micro- and Nanoengineering with Ion Tracks.- Equipment and practice.- Ion Accelerators for Nanoscience.- Focusing keV and MeV Ion Beams.- Ion Spectrometers and Detectors.- Electronics for Application of Ion Beams in Nanoscience.
Trends in nanoscience and technology.- Nanoscale Engineering in the Biosciences.- High Speed Electronics.- Surface Modification Using Reactive Landing of Mass-Selected Ions.- Basic ion-matter interactions in nanometre scale materials.- Basics of Ion Scattering in Nanoscale Materials.- Box 1: Stopping of Ions in Nanomaterials.- Box 2: Sputtering.- Box 3: Ion Ranges.- Computer Simulation Methods for Defect Configurations and Nanoscale Structures.- Characterising Nanoscale Crystal Perfection by Crystal Mapping.- Box 4: Interatomic Potential.- Ion beam characterisation of nanoscale materials.- Medium Energy Ion Scattering for Near Surface Structure and Depth Profiling.- Box 5: Surface Crystallography Terminology.- Thin Film Characterisation Using MeV Ion Beams.- Nanoscale Materials Defect Characterisation.- Box 6: Nanoscale Defects.- Box 7: Diagnostic Ion Beam Luminescence.- Nanomaterials Science with Radioactive Ion Beams.- Nanoscale materials processing with ion beams.- Nanocluster and Nanovoid Formation by Ion Implantation.- Plasma Etching and Integration with Nanoprocessing.- Focused Ion Beam Machining and Deposition.- Box 8: Sample Preparation for Transmission Electron Microscopy Using a Focused Ion Beam.- Box 9: Integrated Circuit Chip Modification Using Focused Ion Beams.- Proton Beam Writing: A New 3D Nanolithographic Technique.- Box 10: Proton Beam Writing of Optical Structures.- Box 11: Tissue Engineering and Bioscience Methods Using Proton Beam Writing.- Box 12: Stamps for Nanoimprint Lithography.- Box 13: Silicon Micro/Nano-Fabrication Using Proton Beam Writing and Electrochemical Etching.- Nanoscale Materials Modification for Device Applications.- Luminescence, Ion Implantation, and Nanoparticles.- Micro- and Nanoengineering with Ion Tracks.- Equipment and practice.- Ion Accelerators for Nanoscience.- Focusing keV and MeV Ion Beams.- Ion Spectrometers and Detectors.- Electronics for Application of Ion Beams in Nanoscience.