Electronic Structure and PropertiesFrank Y. Fradin |
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Page 102
... energy hv impinging on a sample surface can photoeject an electron into the vacuum . This electron departs the ... binding energy " of the ejected electron . Since the photon energy is known , measurement of Eke gives a unique measure of ...
... energy hv impinging on a sample surface can photoeject an electron into the vacuum . This electron departs the ... binding energy " of the ejected electron . Since the photon energy is known , measurement of Eke gives a unique measure of ...
Page 141
... energy . As valence charge is transferred from an atom , the electron - electron repulsion is decreased and the electronic level moves to lower total energy ( higher binding energy ) . Conceptually , one might prefer to view this charge ...
... energy . As valence charge is transferred from an atom , the electron - electron repulsion is decreased and the electronic level moves to lower total energy ( higher binding energy ) . Conceptually , one might prefer to view this charge ...
Page 154
... bonding peak ~ 7 eV below E , and the high intensity of this peak relative to the peak near the Fermi energy . ~ Binding energies of Zr core levels were also monitored . The levels in the hydride were shifted , by 1 eV , to higher binding ...
... bonding peak ~ 7 eV below E , and the high intensity of this peak relative to the peak near the Fermi energy . ~ Binding energies of Zr core levels were also monitored . The levels in the hydride were shifted , by 1 eV , to higher binding ...
Contents
Photoelectron Spectroscopy as an Electronic | 99 |
Electronic Structure and the ElectronPhonon Interaction | 165 |
Elastic Properties of Transition Metals | 223 |
Copyright | |
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Electronic Structure and Properties: Treatise on Materials ..., Volume 21 Frank Y. Fradin Limited preview - 2016 |
Common terms and phrases
alloys anomalies appears approach approximation atom band structure calculated changes charge charge density compared component compounds conduction contribution corresponding crystal curve defect density dependence derivatives described determined direction discussed distribution e/at effect elastic constants electrical electron electron-phonon electronic structure elements energy et al example excitation expected experiment experimental Fermi surface field Freeman function given gives hydrogen important impurity increase indicate interaction ions Jena lattice Lett magnetic materials measured metals method negative normal noted observed obtained peak phase phonon Phys Physics positive positron potential properties proton recent region relative resistivity respectively response sample scattering shear shift shown in Fig shows similar solid solutions strain Table temperature term theoretical theory tion transition transition metals vacancy values variation void volume wave York