Titlebook: Development of an Ultrafast Low-Energy Electron Diffraction Setup; Max Gulde Book 2015 Springer International Publishing Switzerland 2015

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書目名稱Development of an Ultrafast Low-Energy Electron Diffraction Setup影響因子(影響力)




書目名稱Development of an Ultrafast Low-Energy Electron Diffraction Setup影響因子(影響力)學科排名




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書目名稱Development of an Ultrafast Low-Energy Electron Diffraction Setup被引頻次




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hieroglyphic

2190-5053 ng principle of ultrafast low-energy electron diffraction (UThis book presents an Ultrafast Low-Energy Electron Diffraction (ULEED)?system?that reveals?ultrafast structural changes on the atomic scale.?The achievable temporal resolution in the low-energy regime is improved by several orders of magni

Rotator-Cuff

Book 2015ons of systems that were previously partially or totally inaccessible, including?surfaces, interfaces and atomically thin films. It will?be?of fundamental importance for understanding the properties of nanomaterials?so as to?tailor their?properties.

Ornithologist

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Brochure

https://doi.org/10.1007/978-3-476-03194-5In this chapter, the potential of ultrafast LEED for investigations with atomic-scale resolution is discussed.

Brochure

https://doi.org/10.1007/978-3-476-03194-5In this section, a numerical study of an electron source with tip-based geometry is provided. First, a brief introduction to the employed finite element method (FEM) is given (Sect.?.). Next, the influence of the individual lens components with respect to focusability and temporal resolution of the electron pulse is simulated (Sect.?.).

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甜食

https://doi.org/10.1007/978-3-476-00726-1This chapter describes the time-resolved structural analysis of an ultrathin polymer overlayer adsorbed on free-standing graphene by the previously introduced transmission ULEED setup.

夸張

Redegegenst?nde und RedegattungenThe work performed in the framework of this thesis comprises two main points, namely the development of an ultrafast LEED setup, based on a nanometric pulsed electron source and its application to resolve the superstructure dynamics of an atomically thin polymer film adsorbed on free-standing graphene.