Electron Optical Applications in Materials ScienceProblems after each chapter. |
Contents
O FUNDAMENTAL PROPERTIES OF ELECTRONS | 1 |
ELECTRON EMISSION AND EMISSION MICROSCOPY | 31 |
ELECTRON OPTICS AND ELECTRON OPTICAL DESIGN | 76 |
Copyright | |
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aberration absorption accelerating potential alloy amplitude analysis angle atomic backscattered bright-field image Burgers vector Calculate cathode Chap consider corresponding crystal crystallographic dark-field image density detection diamond cubic dislocation effect electrolyte electron beam electron diffraction pattern electron mirror electron optical system emission microscope emitter evaporation Ewald sphere fcc materials field field-ion fluorescent fringes function geometrical grain boundaries Hâ‚‚O high-voltage electron illustrates incident electron intensity profiles L. E. Murr lens measured metal micro microprobe mode normal observed occur orientation Phys plane reciprocal lattice reciprocal-lattice points reflection replica resolution result rotation scanning electron microscope scattering secondary electron secondary electron emission secondary emission selected-area electron diffraction shown in Fig solid specimen surface stacking faults stacking-fault stainless steel structure technique thermionic emission thickness thin films tion transmission electron microscopy twin band twin boundaries unit cell vapor deposition vector voltage volts wave