## Principles of Electron Optics: Wave OpticsThe three volumes in the PRINCIPLES OF ELECTRON OPTICS Series constitute the first comprehensive treatment of electron optics in over forty years. While Volumes 1 and 2 are devoted to geometrical optics, Volume 3 is concerned with wave optics and effects due to wave length. Subjects covered include:Derivation of the laws of electron propagation from SchrUdinger's equation Image formation and the notion of resolution The interaction between specimens and electrons Image processing Electron holography and interference Coherence, brightness, and the spectral function Together, these works comprise a unique and informative treatment of the subject. Volume 3, like its predecessors, will provide readers with both a textbook and an invaluable reference source. |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

1185 | |

1189 | |

1191 | |

1209 | |

ELECTRON INTERFERENCE AND ELECTRON HOLOGRAPHY | 1299 |

THEORY OF IMAGE FORMATION | 1363 |

ELECTRON INTERACTIONS IN THIN SPECIMENS | 1455 |

### Other editions - View all

### Common terms and phrases

aberration amplitude angle aperture approximation astigmatism atoms axis beam beam tilt biprism Bloch waves Boersch calculation Chapter coefﬁcients coherence contrast convolution coordinates corresponding Cowley deﬁned deﬁnition defocus denotes density detail detector difﬁcult diffraction pattern effect Electron Microscopy electron optics EMAG EMSA energy spread equation factor ﬁeld Fienup ﬁlter ﬁnd ﬁnite ﬁrst formula Fourier transform Frank Glaser grey levels Hanszen Hawkes hence hologram holography Hoppe illumination image formation image processing integral intensity interference introduced lattice lens Lenz linear London mathematical morphology Microsc modiﬁcation object obtained Optik phase Phys Physics pixel potential Pozzi Proc Radon transform reconstruction reﬂection satisﬁed Saxton scanning scattering Section shown in Fig simpliﬁcation solution source-size spatial spatial frequency specimen spectrum spherical spherical aberration structure sufﬁcient techniques theory tilt tion Tonomura transfer function transmission electron microscope Ultramicroscopy values vector wave wavefunction Wolf zero