Your search keyword '"Philippe Schieffer"' showing total 11 results

1. Luminescence in undoped and Nb-doped SrTiO3 crystals: Bulk and surface emission

Author

Shabnam Dadgostar, Jose Luis Pura Ruiz, Jorge Serrano Gutierrez, Bruno Lepine, Philippe Schieffer, Juan Jimenez, Universidad de Valladolid [Valladolid] (UVa), Institut de Physique de Rennes (IPR), and Université de Rennes (UR)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[PHYS]Physics [physics], Mechanics of Materials, Cathodoluminescence, Fotoluminiscencia, Mechanical Engineering, [PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci], Strontium titanate, General Materials Science, Catodoluminiscencia, Condensed Matter Physics, Titanato de estroncio, Photoluminescence, ComputingMilieux_MISCELLANEOUS

Abstract

Producción Científica, The luminescence of SrTiO3 depends on the sample type, either doped or stoichiometric, as grown or treated, the excitation conditions, and temperature. The origin of the luminescence emissions, blue, green, and infrared, remains controversial. In particular, the role played by defects, mainly oxygen vacancies, impurities, and self-trapped holes and electrons on the different emissions are far to be elucidated. We present a cathodoluminescence (CL) and photoluminescence (PL) study of undoped and Nb-doped samples. The different excitation conditions of CL and PL permit to distinguish the luminescence emission from the bulk (CL) and from a surface skin region (PL). Significant differences between both techniques are seen for the undoped sample, while the Nb-doped sample presents less differences, highlighting the role played by the surface defects and the doped electrons. The study is complemented by the temperature dependence of the luminescence spectra and the emission due to defects generated by plastic deformation., Junta de Castilla y León (project VA283P18), Ministerio de Economía, Industria y Competitividad (project ENE2017-89561-C4-3-R)

Published

2022

2. X-ray photoelectron diffraction from cubic GaN(0 0 1): an experimental and theoretical study

Author

D. Sébilleau, B. Lépine, G. Jézéquel, B. Daudin, Philippe Schieffer, and G. Feuillet

Subjects

Diffraction, Scattering, Forward scatter, Chemistry, Energy level splitting, Surfaces and Interfaces, Substrate (electronics), Condensed Matter Physics, Molecular physics, Surfaces, Coatings and Films, Crystallography, Excited state, Materials Chemistry, Cluster (physics), Single crystal

Abstract

We have measured the polar scans from a cubic GaN(001) single crystal by X-ray photoelectron diffraction (XPD) with high angular resolution. The intensities were recorded within (100), (110) and (110) substrate planes from Mg Ka excited N 1s and Ga 3d core levels. The data reveal unexpected shapes in forward focusing peaks for the N is XPD patterns. Along [001] and [111] directions a large splitting in the structures is observed. The observed patterns are reproduced very well by a multiple scattering spherical wave cluster calculation but the single scattering approach is sufficient to qualitatively explain the remarkable features in the N Is profiles. In particular we demonstrate that the splitting of the structures along some low index crystallographic directions is caused by the predominance of interference phenomena due to atoms located in specific positions close to the dense atomic chains. As a result of the smaller forward scattering amplitude of the N atoms as compared to that of the Ga atoms, the interference effects are strongly reinforced when there are Ga atoms close to N atomic chains. In the Ga 3d XPD patterns these interference effects also appear but forward scattering still prevails along low index directions.

Published

2001

3. Formation of c(2×2) Mn–Ag superficial bilayer alloys on Ag(001): role of thermally activated surface atomic exchange and ordering

Author

Philippe Schieffer, C. Krembel, G. Gewinner, and Marie-Christine Hanf

Subjects

Surface diffusion, Low-energy electron diffraction, Chemistry, Bilayer, Nucleation, Surfaces and Interfaces, Substrate (electronics), Condensed Matter Physics, Surfaces, Coatings and Films, Crystallography, Electron diffraction, Monolayer, Materials Chemistry, Superstructure (condensed matter)

Abstract

Ultra-thin Mn films have been evaporated in ultra-high vacuum on a Ag(001) substrate kept at temperatures between 210 and 340 K. A c(2×2) LEED (low-energy electron diffraction) diagram is obtained due to the formation of a two-layer-thick superficial Mn–Ag alloy. The intensity and width of the half integer spots are investigated as a function of coverage, deposition temperature, and time elapsed after Mn deposition. The brightest and sharpest diagram is obtained for ∼1.5 monolayers deposited at room temperature, which corresponds to a surface plane made of c(2×2) domains formed by Mn and Ag atoms in a checkerboard arrangement, while the subsurface plane is saturated in Mn. Depending on the preparation conditions, various c(2×2) surface alloys may be obtained that mainly differ in the MnxAg1−x composition of the second atomic plane. A comparison of the time evolution of the LEED spot intensity with ion scattering spectroscopy data reveals that two different thermally activated phenomena determine the formation and nature of the c(2×2) superstructure: on the one hand, part of the deposited Mn atoms must exchange with Ag atoms from the substrate first plane, and on the other hand, the Mn and Ag atoms of the film surface plane diffuse laterally so that nucleation and growth of the c(2×2) domains take place.

Published

2000

4. Strong correlation satellites in core level photoemission from Mn in the monolayer range on Ag(001)

Author

Marie-Christine Hanf, G. Gewinner, Philippe Schieffer, and C. Krembel

Subjects

Radiation, Electronic correlation, Chemistry, Electron, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Spectral line, Electronic, Optical and Magnetic Materials, Core (optical fiber), Monolayer, Coulomb, Physical and Theoretical Chemistry, Atomic physics, Radiant intensity, Spectroscopy, Line (formation)

Abstract

We observe a complex shape of the Mn2p core level photoemission spectra for Mn in structures of reduced dimensionality such as an ideal monolayer on Ag(001). The Mn2p 3/2 and Mn2p 1/2 spectral intensity is found to split into doublets with separation about 4 and 5 eV, respectively. The data indicate an interpretation in terms of a poorly screened and a well screened final state of the Mn with a core hole. In the monolayer range these two final states have comparable intensities and dominant contributions from atomic 2p 5 3d 5 and 2p 5 3d 6 configurations, respectively. Their intensity ratio is found to be extremely sensitive to the Mn atomic environment and directly reflects the degree of the Mn3d localization, electron correlation and reduction in charge fluctuations. Additional fine structure is clearly visible in high-resolution data for both final state 3d electrons counts and can be assigned to direct and exchange Coulomb interactions of the unfilled core and 3d shells. Slow 3d-charge fluctuations also result in a remarkable three-peak structure of the Mn3s line.

Published

1999

5. Growth of pseudomorphic body centered tetragonal Mn films with an abrupt interface on Ag(001)

Author

Marie-Christine Hanf, G. Gewinner, C. Krembel, and Philippe Schieffer

Subjects

Materials science, Low-energy electron diffraction, Annealing (metallurgy), Surfaces and Interfaces, Condensed Matter Physics, Epitaxy, Surfaces, Coatings and Films, Tetragonal crystal system, Crystallography, Vacuum deposition, Monolayer, Materials Chemistry, Crystallite, Single crystal

Abstract

Mn films with a thickness of 2–15 monolayers (ML) have been deposited, in ultra-high vacuum, on a Ag(001) single crystal and analyzed by low energy electron diffraction (LEED) and X-ray photoelectron diffraction (XPD). When a 12 ML film is deposited at room temperature (RT), a ∼3 ML-thick diffuse interface is formed, and Ag segregation occurs on top of an epitaxial body centered tetragonal (bct) Mn layer. If the same amount of Mn is deposited at 80 K in order to block interdiffusion, the film grows in a polycrystalline α-Mn phase. Annealing the sample at 300 K does not markedly change its structure. However, when a 3 ML template of Mn is first deposited on the substrate kept at 80 K, and then 9 ML at 300 K, the data show that the film is pseudomorphic and adopts an epitaxial bct phase, and that the system exhibits an abrupt interface.

Published

1998

6. Formation of a two-dimensional Ag(001) monolayer on epitaxially stabilized Mn(001)

Author

G. Gewinner, Philippe Schieffer, Marie-Christine Hanf, and C. Krembel

Subjects

Low-energy electron diffraction, Chemistry, Layer by layer, Analytical chemistry, Surfaces and Interfaces, Condensed Matter Physics, Evaporation (deposition), Surfaces, Coatings and Films, Vacuum evaporation, Crystallography, X-ray photoelectron spectroscopy, Monolayer, Materials Chemistry, Electronic band structure, Surface states

Abstract

The growth mode and electronic properties of ultrathin films of silver deposited at room temperature (RT) on a 9 monolayers (ML) pseudomorphic Mn film on a Ag(001) surface have been studied by means of low energy electron diffraction (LEED), X-ray photoelectron diffraction (XPD) and angle-resolved ultraviolet photoemission (ARUPS). In particular ARUPS was used to investigate the valence band structure. Initially the data show some Ag segregation on top of the Mn film grown at RT. In the 0.5–0.9 ML coverage range the Ag adlayer exhibits d-band spectral behavior characteristic of two-dimensional dispersion. Further evaporation of Ag results in the formation of Ag bilayer platelets, and > 3 ML deposition the system exhibits a three-dimensional electronic structure converging towards a bulk Ag(001)-like system. Thus the growth mode of Ag on the Mn film is found to be nearly layer by layer up to 2 ML.

Published

1998

7. Stabilization of a face-centered-cubic Mn structure with the Ag lattice parameter

Author

Philippe Schieffer, D. Bolmont, G. Gewinner, Marie-Christine Hanf, and C. Krembel

Subjects

Diffraction, Crystallography, Lattice constant, Materials science, Transition metal, Electron diffraction, Condensed matter physics, Monolayer, Crystal structure, Cubic crystal system, Condensed Matter Physics, Epitaxy, Electronic, Optical and Magnetic Materials

Abstract

We have studied the structure of epitaxial Mn sandwiches made of ∼ 1 monolayer (ML) Ag/3 ML Mn/Ag(100) by using photoemission methods and low-energy electron diffraction (LEED). Epitaxial films of 3 ML Mn grown on Ag(100) at room temperature (RT) are found to have a body-centered-tetragonal (bct) structure. Yet, upon deposition of ∼ 1 ML Ag, remarkable changes occur in the Mn film. X-ray photoelectron diffraction data reveal that the Mn layer relaxes towards a face-centered-cubic (fcc) structure with the lattice parameter of Ag. This implies an exceptionally large atomic volume for a 3d transition metal as well as unusual electronic and magnetic properties. Actually, an evolution towards more atomic-like behaviour is clearly evidenced by valence band and Mn3s core level photoemission data.

Published

1997

8. Initial stages of growth of Mn on Ag(100) studied by X-ray photoelectron diffraction and valence band photoemission

Author

Philippe Schieffer, Marie-Christine Hanf, C. Krembel, D. Bolmont, and G. Gewinner

Subjects

Diffraction, Low-energy electron diffraction, Chemistry, Annealing (metallurgy), Analytical chemistry, Crystal growth, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Crystallography, Transition metal, X-ray photoelectron spectroscopy, Electron diffraction, Monolayer, Materials Chemistry

Abstract

The growth mode of Mn on Ag(100) in the monolayer range was studied using X-ray photoelectron diffraction (XPD), angle-resolved valence band photoemission and low energy electron diffraction. Our results show that MnAg intermixing takes place. The thickness of the intermixed films depends critically on the growth temperature. At room temperature the XPD data clearly indicate that Mn is located in the first and second topmost atomic layers. The growth at higher temperatures, i.e. for 1 ML deposited at 460 K, or 1 ML deposited at RT and then annealed at 460 K, results in enhanced interdiffusion and Ag segregation.

Published

1996

9. Crystallographic and electronic structure of Cu/Cr/Cu(001) sandwiches

Author

Philippe Schieffer, M.C. Hanf, C. Krembel, G. Gewinner, D. Bolmont, and D. Rouyer

Subjects

Photoemission spectroscopy, Chemistry, Metals and Alloys, Analytical chemistry, Angle-resolved photoemission spectroscopy, Surfaces and Interfaces, Crystal structure, Evaporation (deposition), Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Crystallography, X-ray photoelectron spectroscopy, Electron diffraction, Materials Chemistry, Thin film, Single crystal

Abstract

Thin Cu layers have been evaporated at room temperature on Cr films (~ 10 monolayers) deposited on a Cu(001) single crystal. The Crystallographic structure of these sandwiches is analysed by means of low-energy electron diffraction (LEED), angle-resolved ultra-violet photoemission spectroscopy (ARUPS) and X-ray photoemission spectroscopy. The data show that the attenuation of the Cr signal versus Cu deposition is much lower than expected for a uniform film growth. Moreover, the LEED pattern characteristic of the Cr film (made of Cr(110) domains with four different orientations) is visible for Cu coverages as high as 23 ML. This indicates a strong diffusion of the Cu atoms on the Cr film surface and the formation of Cu three-dimensional islands which present, according to ARUPS and X-ray photoelectron diffraction measurements, a highly disordered fcc Crystallographic structure. However the low reactivity of the sandwiches towards oxygen suggests that the whole Cr surface is wetted by at least 1 ML of Cu.

Published

1996

10. Segregation of Cu on annealed ultrathin Cr films deposited on Cu(001)

Author

Marie-Christine Hanf, D. Rouyer, Philippe Schieffer, G. Gewinner, and C. Krembel

Subjects

Low-energy electron diffraction, Chemistry, Analytical chemistry, Surfaces and Interfaces, Condensed Matter Physics, Epitaxy, Surfaces, Coatings and Films, Overlayer, Crystallography, X-ray photoelectron spectroscopy, Monolayer, Materials Chemistry, Wetting, Thin film, Single crystal

Abstract

Thin Cr films (∼20 A) deposited in vacuum at 300 K on a Cu(001) single crystal have been annealed at various temperatures and analyzed by angle resolved ultraviolet photoemission, X-ray photoemission, X-ray photoelectron diffraction and low energy electron diffraction. The data show that Cu segregation occurs above 425 K, resulting in an atomic monolayer wetting the whole Cr film. At 775 K, the Cr overlayer collapses and the Cu(001) substrate surface becomes partly uncovered.

Published

1996

11. Initial growth and structure of Mn on Ag(100): Formation of a superficial alloy

Author

Philippe Schieffer, M.C. Hanf, D. Bolmont, G. Gewinner, and C. Krembel

Subjects

Crystallography, X-ray photoelectron spectroscopy, Electron diffraction, Chemistry, Layer by layer, Materials Chemistry, General Chemistry, Crystal structure, Substrate (electronics), Cubic crystal system, Condensed Matter Physics, Epitaxy, Single crystal

Abstract

We have investigated the crystallographic structure of ultra-thin Mn films deposited at room temperature on a clean Ag(100) single crystal, using angle-resolved ultra-violet photoemission, X-ray photoelectron diffraction (XPD) and low-energy electron diffraction. The evolution of the Ag 4d valence band shows deviations from simple layer by layer growth. These results, combined with the XPD data, indicate that by ∼1–1.5 monolayers of Mn a two layers thick Mn-rich epitaxial MnAg alloy is formed that continues the face centered cubic lattice of the Ag substrate.

Published

1996