Add to ORKGPhotoemission process leaves the target system in several final states that are lacking one electron with respect to the initial state. Except for the trivial noninteracting case, the final state effect leads to nontrivial features in the photoemission electron spectroscopy (PES). They are distinguished as the main feature and its satellites. In this issue, we discuss the satellite features in PES when the final state is reached by the extended excitations, that is, corresponding to the collective excitations of charges, spins, or vibrations. In particular, we focus on the basic PES problems of the metallic system with the Fermi sea of conduction electrons. : 光電子放出過程によって,試料構成系は始状態に比べて電子が一つ少ないいくつかの終状態に至る.相互作用のない場合を除いて,この終状態の効果によって光電子分光(PES)に...
Satellite excitations and final state configuration interactions appear due to the many-electron cor...
Three-dimensional (3D) electronic band structure is fundamental for understanding a vast diversity o...
Photoelectron spectroscopy, especially at pulsed sources, is ultimately limited by the Coulomb inter...
Photoemission process leaves the target system in various final states that are lacking one electron...
Photoemission process leaves the target system in several final states that are lacking one electron...
The angle-resolved photoemission spectroscopy (ARPES) is a powerful experimental tool to probe themo...
We review the history of photoemission electron spectroscopy (PES) from Einstein's photoelectric eff...
Interaction effects can change materials properties in intriguing ways, and they have, in general, a...
The light-matter interaction is central to the photoemission process, with an ultraviolet photon pro...
We present experimental data and theoretical results for valence-band satellites in semiconductors, ...
The photoemission spectroscopy is the most standard method to determine the density of states (DOS)...
Identification of specific chemical states and local electronic environments at surfaces by X-ray ph...
We present a method for calculating f-electron photoemission spectra of light rare-earth insulating ...
Contains research objectives and summary of research on one research project.Joint Services Electron...
The unusual properties of heavy fermion (or heavy electron) materials have sparked an avalanche of r...
Satellite excitations and final state configuration interactions appear due to the many-electron cor...
Three-dimensional (3D) electronic band structure is fundamental for understanding a vast diversity o...
Photoelectron spectroscopy, especially at pulsed sources, is ultimately limited by the Coulomb inter...
Photoemission process leaves the target system in various final states that are lacking one electron...
Photoemission process leaves the target system in several final states that are lacking one electron...
The angle-resolved photoemission spectroscopy (ARPES) is a powerful experimental tool to probe themo...
We review the history of photoemission electron spectroscopy (PES) from Einstein's photoelectric eff...
Interaction effects can change materials properties in intriguing ways, and they have, in general, a...
The light-matter interaction is central to the photoemission process, with an ultraviolet photon pro...
We present experimental data and theoretical results for valence-band satellites in semiconductors, ...
The photoemission spectroscopy is the most standard method to determine the density of states (DOS)...
Identification of specific chemical states and local electronic environments at surfaces by X-ray ph...
We present a method for calculating f-electron photoemission spectra of light rare-earth insulating ...
Contains research objectives and summary of research on one research project.Joint Services Electron...
The unusual properties of heavy fermion (or heavy electron) materials have sparked an avalanche of r...
Satellite excitations and final state configuration interactions appear due to the many-electron cor...
Three-dimensional (3D) electronic band structure is fundamental for understanding a vast diversity o...
Photoelectron spectroscopy, especially at pulsed sources, is ultimately limited by the Coulomb inter...