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04150nam a22006015i 4500 |
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DE-He213 |
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|a 9783642321191
|9 978-3-642-32119-1
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|a 10.1007/978-3-642-32119-1
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|a Rose, Harald.
|e author.
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|a Geometrical Charged-Particle Optics
|h [electronic resource] /
|c by Harald Rose.
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|a 2nd ed. 2012.
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|a Berlin, Heidelberg :
|b Springer Berlin Heidelberg :
|b Imprint: Springer,
|c 2012.
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|a XVIII, 507 p. 204 illus., 33 illus. in color.
|b online resource.
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|a text
|b txt
|2 rdacontent
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|a computer
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|a online resource
|b cr
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|a text file
|b PDF
|2 rda
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|a Springer Series in Optical Sciences,
|x 0342-4111 ;
|v 142
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|a General Properties of the Electron -- Multipole Expansion of the Electromagnetic Field -- Gaussian Optics -- General Principles of Particle Motion -- Beam Properties -- Path Deviations -- Aberrations -- Correction of Aberrations -- Electron Mirrors -- Optics of Electron Guns -- Confinement of Charged Particles -- Monochromator and Energy Filters -- Relativistic Electron Motion and Spin Precession -- Self-Action.
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|a This second edition is an extended version of the first edition of Geometrical Charged-Particle Optics. The updated reference monograph is intended as a guide for researchers and graduate students who are seeking a comprehensive treatment of the design of instruments and beam-guiding systems of charged particles and their propagation in electromagnetic fields. Wave aspects are included in this edition for explaining electron holography, the Aharanov-Bohm effect and the resolution of electron microscopes limited by diffraction. Several methods for calculating the electromagnetic field are presented and procedures are outlined for calculating the properties of systems with arbitrarily curved axis. Detailed methods are presented for designing and optimizing special components such as aberration correctors, spectrometers, energy filters monochromators, ion traps, electron mirrors and cathode lenses. In particular, the optics of rotationally symmetric lenses, quadrupoles, and systems composed of these elements are discussed extensively. Beam properties such as emittance, brightness, transmissivity and the formation of caustics are outlined. Relativistic motion and spin precession of the electron are treated in a covariant way by introducing the Lorentz-invariant universal time and by extending Hamilton’s principle from three to four spatial dimensions where the laboratory time is considered as the fourth pseudo-spatial coordinate. Using this procedure and introducing the self action of the electron, its accompanying electromagnetic field and its radiation field are calculated for arbitrary motion. In addition, the Stern-Gerlach effect is revisited for atomic and free electrons.
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|a Physics.
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|a Optics.
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|a Electrodynamics.
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|a Particle acceleration.
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|a Optoelectronics.
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|a Plasmons (Physics).
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|a Microwaves.
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|a Optical engineering.
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|a Physics.
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|a Optics and Electrodynamics.
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|a Optics, Optoelectronics, Plasmonics and Optical Devices.
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| 650 |
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|a Particle Acceleration and Detection, Beam Physics.
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| 650 |
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|a Applied and Technical Physics.
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|a Microwaves, RF and Optical Engineering.
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| 710 |
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|a SpringerLink (Online service)
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|t Springer eBooks
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|i Printed edition:
|z 9783642321184
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| 830 |
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|a Springer Series in Optical Sciences,
|x 0342-4111 ;
|v 142
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|u http://dx.doi.org/10.1007/978-3-642-32119-1
|z Full Text via HEAL-Link
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|a ZDB-2-PHA
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| 950 |
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|a Physics and Astronomy (Springer-11651)
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