The beryllium atom and beryllium positive ion in strong magnetic fields
... motivated by the astrophysical discovery of strong fields on white dwarfs and neutron stars [1–3]. On the other hand the competition of the diamagnetic and Coulomb interaction causes a rich variety of complex properties which are, of course, also of interest on their own. For a long time the investi ...
... motivated by the astrophysical discovery of strong fields on white dwarfs and neutron stars [1–3]. On the other hand the competition of the diamagnetic and Coulomb interaction causes a rich variety of complex properties which are, of course, also of interest on their own. For a long time the investi ...
A Quantum Rosetta Stone for Interferometry
... transformation (Fig. 1c). This representation is more mathematical than the previous two, and it allows us to extract the unifying mathematical principle that connects the three systems. In all protocols, the initial state is transformed by a discrete Fourier transform (beam splitter, π/2-pulse or H ...
... transformation (Fig. 1c). This representation is more mathematical than the previous two, and it allows us to extract the unifying mathematical principle that connects the three systems. In all protocols, the initial state is transformed by a discrete Fourier transform (beam splitter, π/2-pulse or H ...
2.8 M - Thierry Karsenti
... Evaluate your preparedness to take the module on atomic physics. If you score greater than or equal to 60 out of 75, you are ready to use this module. If you score something between 40 and 60 you may need to revise your school physics on topics of mechanics, electromagnetism and modern physics. A sc ...
... Evaluate your preparedness to take the module on atomic physics. If you score greater than or equal to 60 out of 75, you are ready to use this module. If you score something between 40 and 60 you may need to revise your school physics on topics of mechanics, electromagnetism and modern physics. A sc ...
Conductivity and magnetoresistance of a periodic composite by network discretization
... The electrical and magnetic properties of periodic composites have recently been of much theoretical interest.1–10 In part, this interest has arisen because periodicity makes these properties less difficult to calculate. In addition, advances in microfabrication technology have made it possible to d ...
... The electrical and magnetic properties of periodic composites have recently been of much theoretical interest.1–10 In part, this interest has arisen because periodicity makes these properties less difficult to calculate. In addition, advances in microfabrication technology have made it possible to d ...
Chapter 21 Electric Potential
... A proton is fired toward a small hole in the negative plate with a speed of 3.0 x 105 m/s. What is its speed when it emerges through the hole in the positive plate? (Hint: The electric potential outside of a parallel-plate capacitor is zero). ...
... A proton is fired toward a small hole in the negative plate with a speed of 3.0 x 105 m/s. What is its speed when it emerges through the hole in the positive plate? (Hint: The electric potential outside of a parallel-plate capacitor is zero). ...
Magnetotransport in cleaved-edge-overgrown Fe/GaAs
... The first part of this work focuses on the electrical observation of spin injection from iron (Fe) thin films into GaAs-based heterostructures. The study was carried out in a cleaved-edge-overgrowth (CEO) geometry. Because of the shape anisotropy of Fe, the CEO geometry has the advantage in that the ...
... The first part of this work focuses on the electrical observation of spin injection from iron (Fe) thin films into GaAs-based heterostructures. The study was carried out in a cleaved-edge-overgrowth (CEO) geometry. Because of the shape anisotropy of Fe, the CEO geometry has the advantage in that the ...
Microwave study of quantum n
... geometries where, under appropriate conditions, the underlying Helmholtz equation maps exactly into the timeindependent Schrödinger equation in two dimensions. Experiments were carried out for n⫽1, 2, 3, and 4, as well as for large n⫽20, the latter corresponding to the so-called random Lorentz scat ...
... geometries where, under appropriate conditions, the underlying Helmholtz equation maps exactly into the timeindependent Schrödinger equation in two dimensions. Experiments were carried out for n⫽1, 2, 3, and 4, as well as for large n⫽20, the latter corresponding to the so-called random Lorentz scat ...
Methods of Calculating Forces on Rigid, Linear Magnetic Media
... even if the force on only a portion of a rigid circuit is desired. The most straightforward of these uses the Maxwell stress tensor (sec. VIII), which the author recommends be given more prominence in pedagogic treatments of electrostatic and magnetostatic forces.5 4. Considerable care must be given ...
... even if the force on only a portion of a rigid circuit is desired. The most straightforward of these uses the Maxwell stress tensor (sec. VIII), which the author recommends be given more prominence in pedagogic treatments of electrostatic and magnetostatic forces.5 4. Considerable care must be given ...
Spin-Valley Kondo Effect in Multi
... leakage and decoherence in quantum computing schemes in which Si QDs serve as the qubits. This is an additional reason for trying to understand its consequences. In earlier work, we showed that valley degeneracy produces a novel Kondo effect in N = 1 Si QDs9 . We will show below that for double-elec ...
... leakage and decoherence in quantum computing schemes in which Si QDs serve as the qubits. This is an additional reason for trying to understand its consequences. In earlier work, we showed that valley degeneracy produces a novel Kondo effect in N = 1 Si QDs9 . We will show below that for double-elec ...
