| Dipole (28) |  |
| Magnetic dipole (8) | |
| Dipole (28) | |
| Magnetic dipole (8) | |
which we look at the interaction between the dipoles associated with these molecules and the nanosensor at high frequencies,
which we look at the interaction between the dipoles associated with these molecules and the nanosensor at high frequencieskulkarni says.
"In addition to breaking symmetry, double layers formed by ionic solution also generate dipole differences at the two electrodes,
As the VO2 changes phase, the erbium emissions go from being generated mostly by magnetic dipole transitions (the rotational torque push
they found out that silicon nanoparticles are exhibit strong resonances in the visible spectrum-the so-called magnetic dipole resonances.
classical dipole patch antennas have been used.""Now, our technology introduces'metasurfaces'that are much better energy collectors than classical antennas,
As the VO2 changes phase, the erbium emissions go from being generated mostly by magnetic dipole transitions (the rotational torque push
Its dipole magnetic field like that of a bar magnet remains about the same intensity for thousands to millions of years but for incompletely known reasons it occasionally weakens
impacting the dipole at the same time so that the cantilever starts to oscillate. The sinusoidally modulated control signal makes the cantilever oscillate at an amplitude of up to 20 nanometers.
or metal-air interface) and create an optical magnetic dipole resonance which results in near-perfect light absorption and negligible reflection in the material.
Image-dipole distortionsjqi fellow Edo Waks and his colleagues have performed nanoscopic mappings of the electromagnetic field profile around silver nanowires by positioning quantum dots (the emitter) nearby.
namely that an"image dipole"induced in the surface of the nanowire was distorting knowledge of the quantum dot's true position.
but it does have a net electrical dipole, a slight displacement of positive and negative charge within the dot.
the wire develops an"image"electrical dipole whose emission can interfere with the dot's own emission.
the presence of light coming from the"image dipole"can interfere with light coming directly from the dot.
The JQI experiment successfully measured the image-dipole effect and properly showed that it can be corrected under appropriate circumstances.
or high-dielectric structure image-dipole effects can cause errors. Because these effects can distort the measurement of the nano-emitter's position they are important to consider for any type of super-resolved imaging that performs spatial mapping.""
"Nanoscale probing of image dipole interactions in a metallic nanostructure,"Chad Ropp, Zachary Cummins, Sanghee Nah, John T. Fourkas, Benjamin Shapiro, Edo Waks
This process creates a current of magnetic dipoles that we use to manipulate the orientation of a second magnetic layer,
"In addition to breaking symmetry, double layers formed by ionic solution also generate dipole differences at the two electrodes,
impacting the dipole at the same time so that the cantilever starts to oscillate. The sinusoidally modulated control signal makes the cantilever oscillate at an amplitude of up to 20 nanometers.
This process creates a current of magnetic dipoles that we use to manipulate the orientation of a second magnetic layer,
2015 at a lab on KAIST's campus. They used high-frequency magnetic materials in a dipole coil structure to build a thin,
Arraythe research team used the Dipole Coil Resonance System (DCRS) to induce magnetic fields, which was developed by the team in 2014 for inductive power transfer over an extended distance.
The DCRS is composed of two (transmitting and receiving) magnetic dipole coils, placed in parallel, with each coil having a ferrite core
the dipole coil is very compact and has a less dimension. Therefore a crossed dipole structure has 2-dimension rather than 3-dimension of a crossed loop coil structure.
The DCRS has a great advantage to transfer power even when the resonance frequency changes in the range of 1%(Q factor is below 100).
Arraythe research team rearranged the two dipole coils from a parallel position to cross them
which is entitled ix Degrees of Freedom Mobile Inductive Power Transfer by Crossed Dipole Tx (Transmitter) and Rx (Receiver) Coils.
2015 at a lab on KAIST campus. They used high-frequency magnetic materials in a dipole coil structure to build a thin,
Dipole Coil Resonance System (DCRS) The research team used the Dipole Coil Resonance System (DCRS) to induce magnetic fields,
The DCRS is composed of two (transmitting and receiving) magnetic dipole coils, placed in parallel, with each coil having a ferrite core
the dipole coil is very compact and has a less dimension. Therefore a crossed dipole structure has 2-dimension rather than 3-dimension of a crossed loop coil structure.
The DCRS has a great advantage to transfer power even when the resonance frequency changes in the range of 1%(Q factor is below 100).
Greater Flexibility and Safer Charging The research team rearranged the two dipole coils from a parallel position to cross them
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