Physics of magnetic nanostructures /
A comprehensive coverage of the physical properties and real-world applications of magnetic nanostructures This book discusses how the important properties of materials such as the cohesive energy, and the electronic and vibrational structures are affected when materials have at least one length in...
Κύριος συγγραφέας: | |
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Μορφή: | Ηλ. βιβλίο |
Γλώσσα: | English |
Έκδοση: |
Hoboken, New Jersey :
Wiley,
[2015]
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Θέματα: | |
Διαθέσιμο Online: | Full Text via HEAL-Link |
Πίνακας περιεχομένων:
- TITLE PAGE; TABLE OF CONTENTS; PREFACE; ACKNOWLEDGMENT; 1 PROPERTIES OF NANOSTRUCTURES; 1.1 COHESIVE ENERGY; 1.2 ELECTRONIC PROPERTIES; 1.3 QUANTUM DOTS; 1.4 VIBRATIONAL PROPERTIES; 1.5 SUMMARY; EXERCISES; REFERENCES; 2 THE PHYSICS OF MAGNETISM; 2.1 KINDS OF MAGNETISM; 2.2 PARAMAGNETISM; 2.3 FERROMAGNETISM; 2.4 ANTIFERROMAGNETISM; EXERCISES; REFERENCES; 3 PROPERTIES OF MAGNETIC NANOPARTICLES; 3.1 SUPERPARAMAGNETISM; 3.2 EFFECT OF PARTICLE SIZE ON MAGNETIZATION; 3.3 DYNAMICAL BEHAVIOR OF MAGNETIC NANOPARTICLES; 3.4 MAGNETIC FIELD-ALIGNED PARTICLES IN FROZEN FLUIDS
- 3.5 MAGNETISM INDUCED BY NANOSIZING3.6 ANTIFERROMAGNETIC NANOPARTICLES; 3.7 MAGNETORESISTIVE MATERIALS; EXERCISES; REFERENCES; 4 BULK NANOSTRUCTURED MAGNETIC MATERIALS; 4.1 FERROMAGNETIC SOLIDS WITH NANOSIZED GRAINS; 4.2 LOW-DIMENSIONAL MAGNETIC NANOSTRUCTURES; 4.3 MAGNETORESISTANCE IN BULK NANOSTRUCTURED MATERIALS; EXERCISES; REFERENCES; 5 MAGNETISM IN CARBON AND BORON NITRIDE NANOSTRUCTURES; 5.1 CARBON NANOSTRUCTURES; 5.2 EXPERIMENTAL OBSERVATIONS OF MAGNETISM IN CARBON AND BORON NITRIDE NANOSTRUCTURES; EXERCISES; REFERENCES; 6 NANOSTRUCTURED MAGNETIC SEMICONDUCTORS
- 6.1 ELECTRON-HOLE JUNCTIONS6.2 MOSFET; 6.3 NANOSIZED MOSFETs; 6.4 DILUTE MAGNETIC SEMICONDUCTORS; 6.5 NANOSTRUCTURING IN MAGNETIC SEMICONDUCTORS; 6.6 DMS QUANTUM WELLS; 6.7 DMS QUANTUM DOTS; 6.8 STORAGE DEVICES BASED ON MAGNETIC SEMICONDUCTORS; 6.9 THEORETICAL PREDICTIONS OF NANOSTRUCTURED MAGNETIC SEMICONDUCTORS; EXERCISES; REFERENCES; 7 APPLICATIONS OF MAGNETIC NANOSTRUCTURES; 7.1 FERROFLUIDS; 7.2 MAGNETIC STORAGE (HARD DRIVES); 7.3 ELECTRIC FIELD CONTROL OF MAGNETISM; 7.4 MAGNETIC PHOTONIC CRYSTALS; 7.5 MAGNETIC NANOPARTICLES AS CATALYSTS
- 7.6 MAGNETIC NANOPARTICLE LABELING OF HAZARDOUS MATERIALSEXERCISES; REFERENCES; 8 MEDICAL APPLICATIONS OF MAGNETIC NANOSTRUCTURES; 8.1 TARGETED DRUG DELIVERY; 8.2 MAGNETIC HYPERTHERMIA; 8.3 MAGNETIC SEPARATION; 8.4 MAGNETIC NANOPARTICLES FOR ENHANCED CONTRAST IN MAGNETIC RESONANCE IMAGING; 8.5 DETECTION OF BACTERIA; 8.6 ANALYSIS OF STORED BLOOD; EXERCISES; REFERENCES; 9 FABRICATION OF MAGNETIC NANOSTRUCTURES; 9.1 MAGNETIC NANOPARTICLES; 9.2 MAGNETIC QUANTUM WELLS; 9.3 MAGNETIC NANOWIRES; 9.4 MAGNETIC QUANTUM DOTS; EXERCISES; REFERENCES
- APPENDIX A A TABLE OF NUMBER OF ATOMS VERSUS SIZE IN FACE CENTERED CUBIC NANOPARTICLESAPPENDIX B DEFINITION OF A MAGNETIC FIELD; APPENDIX C DENSITY FUNCTIONAL THEORY; APPENDIX D TIGHT BINDING MODEL OF ELECTRONIC STRUCTURE OF METALS; APPENDIX E PERIODIC BOUNDARY CONDITIONS; INDEX; End User License Agreement