Add to ORKGThe surface of the complex oxides, in particular the manganese perovskites, is dominated by a different free enthalpy at the surface. This can be demonstrated by surface segregation after annealing the samples. By comparing relative x-ray photoelectron spectroscopy intensities of the manganese perovskite La1-xCaxMnO3 (x=0.1, 0.35) for different emission angles, the profile of elemental concentration was determined. Analysis shows evidence for pronounced surface segregation of calcium. Our results suggest that there are strong differences between surface and bulk enthalpies without segregation or surface relaxation. This is consistent with the previously observed surface resonance in the electronic band structure
Using spin-polarized inverse photoemission and X-ray absorption spectroscopy techniques, we show tha...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
A signature of transition metal oxides is the ability to accommodate stoichiometry variations by for...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
Angle-resolved core-level photoemission has been utilized to study the surfaces of crystalline thin ...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
The electronic structure near to the Fermi level of the colossal magnetoresistance (CMR) perovskite ...
The composition in the surface region of the colossal magnetoresistance perovskite manganite materia...
The composition in the surface region of the colossal magnetoresistance perovskite manganite materia...
Using spin-polarized inverse photoemission and X-ray absorption spectroscopy techniques, we show tha...
Using spin-polarized inverse photoemission and X-ray absorption spectroscopy techniques, we show tha...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
A signature of transition metal oxides is the ability to accommodate stoichiometry variations by for...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
The surface of the complex oxides, in particular the manganese perovskites, is dominated by a differ...
Angle-resolved core-level photoemission has been utilized to study the surfaces of crystalline thin ...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
The electronic structure near to the Fermi level of the colossal magnetoresistance (CMR) perovskite ...
The composition in the surface region of the colossal magnetoresistance perovskite manganite materia...
The composition in the surface region of the colossal magnetoresistance perovskite manganite materia...
Using spin-polarized inverse photoemission and X-ray absorption spectroscopy techniques, we show tha...
Using spin-polarized inverse photoemission and X-ray absorption spectroscopy techniques, we show tha...
Photoemission spectroscopy offers the unique possibility of mapping out the electronic structure of ...
A signature of transition metal oxides is the ability to accommodate stoichiometry variations by for...