Introduction to Conventional Transmission Electron MicroscopyThis graduate level textbook covers the fundamentals of conventional transmission electron microscopy (CTEM) as applied to crystalline solids. Emphasis is on the experimental and computational methods used to quantify and analyze CTEM observations. A supplementary website containing interactive modules and free Fortran source code accompanies the text. |
Contents
III | 1 |
IV | 2 |
VI | 5 |
VII | 9 |
IX | 10 |
X | 14 |
XI | 16 |
XII | 18 |
CXIV | 284 |
CXV | 288 |
CXVI | 291 |
CXVII | 293 |
CXVIII | 300 |
CXIX | 301 |
CXX | 303 |
CXXI | 304 |
XIII | 23 |
XIV | 24 |
XV | 26 |
XVI | 29 |
XVII | 32 |
XIX | 33 |
XX | 34 |
XXIV | 35 |
XXV | 39 |
XXVI | 42 |
XXVII | 44 |
XXVIII | 46 |
XXIX | 47 |
XXX | 48 |
XXXI | 50 |
XXXII | 53 |
XXXIII | 55 |
XXXIV | 59 |
XXXV | 62 |
XXXVI | 64 |
XXXVII | 68 |
XXXVIII | 70 |
XXXIX | 77 |
XLI | 79 |
XLII | 80 |
XLIII | 81 |
XLIV | 82 |
XLV | 84 |
XLVI | 85 |
XLVII | 86 |
XLVIII | 87 |
XLIX | 89 |
L | 91 |
LI | 94 |
LII | 96 |
LIII | 98 |
LIV | 100 |
LV | 103 |
LVII | 105 |
LVIII | 106 |
LIX | 108 |
LX | 111 |
LXII | 116 |
LXIII | 119 |
LXIV | 121 |
LXV | 126 |
LXVI | 128 |
LXVII | 133 |
LXVIII | 134 |
LXIX | 136 |
LXX | 137 |
LXXI | 138 |
LXXII | 142 |
LXXIII | 144 |
LXXIV | 146 |
LXXV | 148 |
LXXVI | 150 |
LXXVII | 156 |
LXXVIII | 161 |
LXXIX | 166 |
LXXX | 174 |
LXXXI | 176 |
LXXXII | 178 |
LXXXIII | 179 |
LXXXIV | 187 |
LXXXV | 190 |
LXXXVI | 193 |
LXXXVII | 195 |
LXXXIX | 199 |
XC | 201 |
XCI | 204 |
XCII | 208 |
XCIII | 211 |
XCIV | 216 |
XCV | 221 |
XCVI | 227 |
XCVII | 228 |
XCVIII | 230 |
XCIX | 233 |
C | 235 |
CI | 237 |
CII | 238 |
CIII | 241 |
CIV | 243 |
CV | 250 |
CVI | 252 |
CVII | 257 |
CVIII | 272 |
CIX | 273 |
CX | 276 |
CXI | 277 |
CXII | 279 |
CXIII | 282 |
CXXII | 306 |
CXXIII | 311 |
CXXIV | 313 |
CXXV | 315 |
CXXVI | 316 |
CXXVII | 317 |
CXXVIII | 319 |
CXXIX | 320 |
CXXX | 322 |
CXXXI | 326 |
CXXXII | 327 |
CXXXIII | 328 |
CXXXV | 330 |
CXXXVI | 331 |
CXXXVII | 340 |
CXXXVIII | 343 |
CXXXIX | 345 |
CXL | 346 |
CXLI | 348 |
CXLII | 352 |
CXLIII | 361 |
CXLIV | 362 |
CXLV | 367 |
CXLVI | 371 |
CXLVIII | 377 |
CXLIX | 382 |
CL | 384 |
CLI | 388 |
CLII | 394 |
CLIII | 395 |
CLIV | 396 |
CLV | 398 |
CLVI | 412 |
CLVII | 422 |
CLVIII | 435 |
CLIX | 437 |
CLX | 439 |
CLXII | 446 |
CLXIV | 450 |
CLXV | 453 |
CLXVI | 454 |
CLXVII | 458 |
CLXIX | 460 |
CLXX | 465 |
CLXXI | 466 |
CLXXII | 470 |
CLXXIII | 474 |
CLXXIV | 478 |
CLXXV | 479 |
CLXXVI | 481 |
CLXXVII | 492 |
CLXXVIII | 511 |
CLXXIX | 514 |
CLXXX | 515 |
CLXXXI | 518 |
CLXXXII | 523 |
CLXXXIII | 525 |
CLXXXIV | 530 |
CLXXXV | 535 |
CLXXXVI | 537 |
CLXXXVII | 540 |
CLXXXVIII | 544 |
CLXXXIX | 554 |
CXC | 556 |
CXCI | 558 |
CXCII | 569 |
CXCIII | 575 |
CXCIV | 584 |
CXCV | 585 |
CXCVI | 586 |
CXCVII | 587 |
CXCVIII | 589 |
CXCIX | 606 |
CC | 621 |
CCI | 626 |
CCII | 629 |
CCIII | 638 |
CCIV | 641 |
CCV | 642 |
CCVI | 648 |
CCVII | 649 |
CCVIII | 652 |
CCIX | 658 |
CCX | 659 |
CCXI | 661 |
CCXIII | 667 |
CCXIV | 668 |
CCXV | 669 |
CCXVII | 677 |
| 685 | |
| 705 | |
Other editions - View all
Introduction to Conventional Transmission Electron Microscopy Marc De Graef No preview available - 2003 |
Introduction to Conventional Transmission Electron Microscopy Marc De Graef No preview available - 2003 |
Common terms and phrases
absorption acceleration voltage algorithm amplitude angle aperture astigmatism atom beam tilt bend contour Bloch wave Bragg equation Bragg orientation Bravais lattice Chapter column components compute condensor coordinates corresponding crystal structure dark field images defect defocus derived described determine diffracted beam diffraction group diffraction pattern distance domain wall dynamical electron diffraction Electron Microscopy electrostatic lattice potential energy equation Ewald sphere excitation error exit wave Fourier transform fringes given HOLZ indicated intensity inverse lattice parameters Laue lenses Lorentz magnetic magnification matrix metric tensor microscope modulation normal objective lens obtain operator optical axis phase shift pixels point group reader reciprocal lattice point reciprocal lattice vector reciprocal space reference frame reflections rotation routine sample Section shown in Fig simulation space group spherical aberration stereographic projection symmetry systematic row thin foil two-beam unit cell wave function wave vector zone axis orientation zone axis pattern