EFFECTS OF MOLECULAR ORIENTATION AND ANNEALING ON …
... This experimental work includes two parts: the first part deals with unannealed (as received) samples of oriented PET, and the second part deals with annealed samples. For annealing test specimens were cut at different angle from the molecular direction (or IDD), and clamped firmly between two smo ...
... This experimental work includes two parts: the first part deals with unannealed (as received) samples of oriented PET, and the second part deals with annealed samples. For annealing test specimens were cut at different angle from the molecular direction (or IDD), and clamped firmly between two smo ...
Title Magnetic Light-Matter Interactions in a Photonic Crystal
... light inside the cavity. As a consequence, the fields spatially vary over the volume of the probe such that the effect of both the magnetic and electric interaction will be smeared out. We expect this convolution to be much more severe for the electric interaction since the relevant size is the whol ...
... light inside the cavity. As a consequence, the fields spatially vary over the volume of the probe such that the effect of both the magnetic and electric interaction will be smeared out. We expect this convolution to be much more severe for the electric interaction since the relevant size is the whol ...
Spectroscopic Study of Argon DC Glow Discharge
... Usually, only probes are used routinely for measuring the temperature and density of electrons and ions. However, in magnetized or depositing plasmas in particular, the interpretation of probe characteristics is difficult and can lead to erroneous results [1]. Optical methods such as emission, absor ...
... Usually, only probes are used routinely for measuring the temperature and density of electrons and ions. However, in magnetized or depositing plasmas in particular, the interpretation of probe characteristics is difficult and can lead to erroneous results [1]. Optical methods such as emission, absor ...
Accurate 2d finite element calculations for hydrogen in magnetic
... axes. Searching for a good estimate of xmax , we analyse several of such wave function slices, determine the position where their absolute value has finally dropped to 10−6 of the total wave function’s maximum absolute value and assume this to be the slices’ optimal width. This cutoff criterion was ...
... axes. Searching for a good estimate of xmax , we analyse several of such wave function slices, determine the position where their absolute value has finally dropped to 10−6 of the total wave function’s maximum absolute value and assume this to be the slices’ optimal width. This cutoff criterion was ...
Spin current source based on a quantum point contact with local
... currents can be obtained using ferromagnetic contacts,2 but the degree of spin polarization is typically very low.3 An alternative option for generation of spin densities and spin-polarized currents without the external magnetic fields or ferromagnets is provided4 by the spin-orbit (SO) interaction ...
... currents can be obtained using ferromagnetic contacts,2 but the degree of spin polarization is typically very low.3 An alternative option for generation of spin densities and spin-polarized currents without the external magnetic fields or ferromagnets is provided4 by the spin-orbit (SO) interaction ...
Midgap states of a two-dimensional antiferromagnetic Mott
... that these are intrinsic properties of an antiferromagnetic Mott-Hubbard gap in the presence of charge carriers and that they play a central role in the occurrence of high-temperature superconductivity. While some phenomenological pictures [4], [5] of this anomalous metal have been introduced, a mic ...
... that these are intrinsic properties of an antiferromagnetic Mott-Hubbard gap in the presence of charge carriers and that they play a central role in the occurrence of high-temperature superconductivity. While some phenomenological pictures [4], [5] of this anomalous metal have been introduced, a mic ...
Magnetic Light-Matter Interactions in a Photonic Crystal Nanocavity
... light inside the cavity. As a consequence, the fields spatially vary over the volume of the probe such that the effect of both the magnetic and electric interaction will be smeared out. We expect this convolution to be much more severe for the electric interaction since the relevant size is the whol ...
... light inside the cavity. As a consequence, the fields spatially vary over the volume of the probe such that the effect of both the magnetic and electric interaction will be smeared out. We expect this convolution to be much more severe for the electric interaction since the relevant size is the whol ...
Spintronics and Quantum Dots for Quantum Computing and
... quantum dots have been measured [29], with at most one spin per dot. The relatively small T2∗ decoherence times (a few ns at vanishing magnetic field), which have been seen in these experiments, probably originate from a large inhomogeneous broadening due to a strong variation of g-factors [29]. Nev ...
... quantum dots have been measured [29], with at most one spin per dot. The relatively small T2∗ decoherence times (a few ns at vanishing magnetic field), which have been seen in these experiments, probably originate from a large inhomogeneous broadening due to a strong variation of g-factors [29]. Nev ...
Resonant reflection at magnetic barriers in quantum wires - ITN
... of fundamental interest but also have a distinct potential for application in spintronics. In these numerical studies, resonant features in the conductance are frequently found, e.g., in Fig. 3 of Ref. 10, Fig. 2 of Ref. 11, or Fig. 5 of Ref. 19. The character of these resonances as well as their or ...
... of fundamental interest but also have a distinct potential for application in spintronics. In these numerical studies, resonant features in the conductance are frequently found, e.g., in Fig. 3 of Ref. 10, Fig. 2 of Ref. 11, or Fig. 5 of Ref. 19. The character of these resonances as well as their or ...
Nitrogen-vacancy center
The nitrogen-vacancy center (N-V center) is one of numerous point defects in diamond. Its most explored and useful property is photoluminescence, which can be easily detected from an individual N-V center, especially those in the negative charge state (N-V−). Electron spins at N-V centers, localized at atomic scales, can be manipulated at room temperature by applying a magnetic field, electric field, microwave radiation or light, or a combination, resulting in sharp resonances in the intensity and wavelength of the photoluminescence. These resonances can be explained in terms of electron spin related phenomena such as quantum entanglement, spin-orbit interaction and Rabi oscillations, and analysed using advanced quantum optics theory. An individual N-V center can be viewed as a basic unit of a quantum computer, and it has potential applications in novel, more efficient fields of electronics and computational science including quantum cryptography and spintronics.