Podlesnyak, Andrey: Spin crossover phenomena in transition metal
... We are waiting for strong magnetic fields to become available to INS: a “must” tool to analyze spin-state transitions; to manipulate with electronic states. ...
... We are waiting for strong magnetic fields to become available to INS: a “must” tool to analyze spin-state transitions; to manipulate with electronic states. ...
lecture1426861925
... all metals, equal to 120Amp/ which is generally attributed to partial reflection of electrons at the surface of the metal. The emission obtained from different faces of a metal is also found to vary and the vary and the value of A for polycrystalline materials is quite low. The number of material av ...
... all metals, equal to 120Amp/ which is generally attributed to partial reflection of electrons at the surface of the metal. The emission obtained from different faces of a metal is also found to vary and the vary and the value of A for polycrystalline materials is quite low. The number of material av ...
Microwave study of quantum n
... The experiments, which are able to access the stationary Green’s function of the system, yield the frequencies and the widths of the low-lying quantum resonances. We carried out semiclassical calculations of such resonances, which are found to reproduce the measured spectra reasonably well. Our expe ...
... The experiments, which are able to access the stationary Green’s function of the system, yield the frequencies and the widths of the low-lying quantum resonances. We carried out semiclassical calculations of such resonances, which are found to reproduce the measured spectra reasonably well. Our expe ...
Silicon Detectors in Particle Physics
... • Large signal low ionisation energy small band gap! • Low noise very few intrinsic charge carriers large band gap! • Optimal material: Eg ≈ 6 eV. ! • Conduction band is almost empty at room temperature • Band gap small enough to create a large number of e-h+ pairs. • Such a material exist, ...
... • Large signal low ionisation energy small band gap! • Low noise very few intrinsic charge carriers large band gap! • Optimal material: Eg ≈ 6 eV. ! • Conduction band is almost empty at room temperature • Band gap small enough to create a large number of e-h+ pairs. • Such a material exist, ...
A kinetic model for runaway electrons in the ionosphere
... is straightforward and well-known: the friction force acting on an electron travelling with velocity v is a non-monotonic function, having a global maximum at the thermal speed. For an electron moving faster than this speed, the collision frequency decreases with increasing velocity. Therefore, if a ...
... is straightforward and well-known: the friction force acting on an electron travelling with velocity v is a non-monotonic function, having a global maximum at the thermal speed. For an electron moving faster than this speed, the collision frequency decreases with increasing velocity. Therefore, if a ...
1. Introduction - UvA-DARE
... 1.1.2 Nanophotonics Nanophotonics, the study of light at the nanoscale, has become an important and dynamic field of research in the last decade. At this deep-subwavelength scale, light interacts with matter in complex ways, in which not only the material properties but also their size and shape pla ...
... 1.1.2 Nanophotonics Nanophotonics, the study of light at the nanoscale, has become an important and dynamic field of research in the last decade. At this deep-subwavelength scale, light interacts with matter in complex ways, in which not only the material properties but also their size and shape pla ...