Superresolution optical magnetic imaging and
... the ms = 0 spin state, which effectively reduces the ms = 1 fluorescence rate and allows spinstate initialization into ms = 0. For superresolved NV imaging and spin readout, we overlap a second 532 nm, Laguerre-Gaussian doughnut beam with an intensity zero at the center. Similar to other coordinate- ...
... the ms = 0 spin state, which effectively reduces the ms = 1 fluorescence rate and allows spinstate initialization into ms = 0. For superresolved NV imaging and spin readout, we overlap a second 532 nm, Laguerre-Gaussian doughnut beam with an intensity zero at the center. Similar to other coordinate- ...
All About Electromagnetism 5. - mt
... (b) decreases (c) remains (d) increases in steps The direction of the magnetic field around a straight conductor carrying current is given by ..................... . (a) right hand rule (b) Fleming’s left hand rule (c) Fleming’s right hand rule (d) non of these The relation between electricity and m ...
... (b) decreases (c) remains (d) increases in steps The direction of the magnetic field around a straight conductor carrying current is given by ..................... . (a) right hand rule (b) Fleming’s left hand rule (c) Fleming’s right hand rule (d) non of these The relation between electricity and m ...
document
... • The Coulomb force is a CONSERVATIVE force (i.e., the work done by it on a particle which moves around a closed path returning to its initial position is ZERO.) • Therefore, a particle moving under the influence of the Coulomb force is said to have an electric potential energy defined by: this “q” ...
... • The Coulomb force is a CONSERVATIVE force (i.e., the work done by it on a particle which moves around a closed path returning to its initial position is ZERO.) • Therefore, a particle moving under the influence of the Coulomb force is said to have an electric potential energy defined by: this “q” ...
PH504L4-dipo
... separate dipoles aligned end-to-end but with opposite direction. In analogy to single charges (monopoles) and dipoles, the potential due to a quadrupole falls off as r- -3 and the E-field as r- -4. Dipole-dipole interactions are electrostatic interactions of permanent dipoles in molecules. These int ...
... separate dipoles aligned end-to-end but with opposite direction. In analogy to single charges (monopoles) and dipoles, the potential due to a quadrupole falls off as r- -3 and the E-field as r- -4. Dipole-dipole interactions are electrostatic interactions of permanent dipoles in molecules. These int ...
Wednesday, Feb. 8, 2012
... • Since the equipotential surface (line) is perpendicular to the electric field, we can draw these surfaces or lines easily. • Since there can be no electric field within a conductor in a static case, the entire volume of a conductor must be at the same potential. • So the electric field must be per ...
... • Since the equipotential surface (line) is perpendicular to the electric field, we can draw these surfaces or lines easily. • Since there can be no electric field within a conductor in a static case, the entire volume of a conductor must be at the same potential. • So the electric field must be per ...
The influence of the magnetic field on the performance
... function of magnetic field but also of temperature, and thus of position in the regenerator. At the same time heat is transferred from the MCM to the heat transfer fluid in a time span, τ1 . The heat transfer fluid is then displaced towards the hot heat exchanger where the heat is released to the su ...
... function of magnetic field but also of temperature, and thus of position in the regenerator. At the same time heat is transferred from the MCM to the heat transfer fluid in a time span, τ1 . The heat transfer fluid is then displaced towards the hot heat exchanger where the heat is released to the su ...
Magnetic monopole
A magnetic monopole is a hypothetical elementary particle in particle physics that is an isolated magnet with only one magnetic pole (a north pole without a south pole or vice versa). In more technical terms, a magnetic monopole would have a net ""magnetic charge"". Modern interest in the concept stems from particle theories, notably the grand unified and superstring theories, which predict their existence.Magnetism in bar magnets and electromagnets does not arise from magnetic monopoles. There is no conclusive experimental evidence that magnetic monopoles exist at all in our universe.Some condensed matter systems contain effective (non-isolated) magnetic monopole quasi-particles, or contain phenomena that are mathematically analogous to magnetic monopoles.