Add to ORKGWe describe the use of an ellipsoidal-mirror analyzer to obtain cross-sectional images of electrons photoemitted from a bulk Fermi surface. The region of the Brillouin zone that is sampled can be varied by adjusting the photon energy, allowing a complete mapping of the electron Fermi surface. This technique provides an immediate and direct visualization of the occupied electronic states and their relationship to bulk symmetries. © 1992
The Fermi surface that characterizes the electronic band structure of crystalline solids can be diff...
We measure the electronic structure of FeSe from within individual orthorhombic domains. Enabled by ...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of new e...
We demonstrate the use of a photoelectron emission microscope in connection with a retarding field e...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
We have studied the Fermi surface of Cu using an ellipsoidal-mirror analyzer which gives two-dimensi...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
We performed a full mapping of the bulk electronic structure including the Fermi surface and Fermi-v...
A brief survey of the angle-scanned photoemission technique is given. It incorporates two complement...
We have studied the surface state of Cu(l l l) using an ellipsoidal-mirror analyzer which gives two ...
A scanning tunneling microscope can be used to visualize in real space effects provided by Fermi sur...
The setup of an electron spectrometer for angle-resolved photoemission is described. A sample goniom...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of newel...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of newel...
The Fermi surface that characterizes the electronic band structure of crystalline solids can be diff...
We measure the electronic structure of FeSe from within individual orthorhombic domains. Enabled by ...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of new e...
We demonstrate the use of a photoelectron emission microscope in connection with a retarding field e...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
We have studied the Fermi surface of Cu using an ellipsoidal-mirror analyzer which gives two-dimensi...
When mapping spatially resolved photoemission intensity for electron kinetic energy corresponding to...
We performed a full mapping of the bulk electronic structure including the Fermi surface and Fermi-v...
A brief survey of the angle-scanned photoemission technique is given. It incorporates two complement...
We have studied the surface state of Cu(l l l) using an ellipsoidal-mirror analyzer which gives two ...
A scanning tunneling microscope can be used to visualize in real space effects provided by Fermi sur...
The setup of an electron spectrometer for angle-resolved photoemission is described. A sample goniom...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of newel...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of newel...
The Fermi surface that characterizes the electronic band structure of crystalline solids can be diff...
We measure the electronic structure of FeSe from within individual orthorhombic domains. Enabled by ...
The discontinuity in the lattice periodic potential at surfaces often leads to the creation of new e...