Examples of 'superlattice' in a sentence
Meaning of "superlattice"
Superlattice refers to a structure resulting from the periodic layering of two materials, and it is commonly used in physics and materials science
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- A material with periodically alternating layers of several crystalline substances; especially such a semiconductor.
How to use "superlattice" in a sentence
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superlattice
This structure is a superlattice with a highly coupled composition.
Superlattice strain relief layer for semiconductor devices.
Details of the three superlattice systems investigated in this work.
The materials of two successive layers in the superlattice are different.
The superlattice can be a semiconducting superlattice.
It is very doubtful whether this is a specific effect of the superlattice.
This superlattice consists of an alternation of thin GaAs and AlAs films.
Electrons and holes are confined within the isotope superlattice.
It is known that a highly coupled superlattice is a quantum structure of a particular type.
The diffraction efficiency is highly dependent on the structure of the superlattice.
A practical way to fabricate a vertical silicon superlattice is to grow silicon epitaxially on a substrate.
Instead it consists of a periodic series of thin layers of varying material composition forming a superlattice.
The present invention also provides an isotope superlattice that is a phonon resonator.
Both hybrid and superlattice thin films were deposited on silicon and quartz.
We describe here the preparation of an isotope superlattice phonon resonator.
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The thermal conductance of the superlattice was evaluated under different values of external electric field.
The process is reiterated until the desired isotope superlattice structure is produced.
None of the superlattice films showed any response to UV irradiation.
The simulation points out an excellent coherence of the superlattice and abrupt interfaces.
Highly coupled superlattice integrated laser-modulator component.
The present disclosure also provides methods of fabricating an isotope superlattice that is a phonon resonator.
Formation of a superlattice comprising the substeps,.
The coherent light is laced throughout and between each row of the superlattice grid structure.
Preferably, an isotope superlattice is produced by separating isotopes and assembling the superlattice.
This value is the limit of the first Brillouin minizone of the superlattice.
His first paper on the semiconductor superlattice was published when he was with IBM.
Possibility of amplification of electromagnetic waves in a semiconductor with a superlattice ".
Acousto-optical device using a superlattice as the interaction meduim.
Alternatively, the insert layer is a superlattice.
Can form a superlattice with gallium arsenide ( ) which results in its semiconductor properties.
Let us first consider a resonator made of a vertical-stack superlattice.
To this end, the present invention uses a superlattice of an appropriate period.
During step b, carbon is advantageously incorporated in the layers of the superlattice.
Depending on the nature of its components, a superlattice may be called magnetic, optical or semiconducting.
This latter effect was negligible for a GaAs-GaAlAs superlattice.
The superlattice observed in the exemplary sample is close to a 5x superlattice, but is clearly different.
Figure 8 shows as an example a method to create a superlattice of quantum wires.
We have discovered that the superlattice spacing can be affected by composition and / or processing conditions.
Further, the first layers preferably have pseudo superlattice structure.
Each diode includes a doping superlattice essentially of the kind shown in Figure 1.
It is beneficial if lower n-dopant densities can be used for the superlattice.
The present invention relates to a highly coupled superlattice integrated laser-modulator component.
These transductors are a two-layers pileup of GaAs / AlAs gathered in one superlattice.
For electrons moving through the graphene layer, the moire superlattice acts like a periodic scattering potential.
It is therefore possible to expect a very pronounced acousto-optical interaction in the superlattice.
The effect of a Fabry-Perot optical resonator in a superlattice will firstly be considered.
This is the direct confirmation of the two-dimensional nature of this kind of superlattice.
The effect is recreated in Si / Ge superlattice by mechanically applying a non-uniform strain at the interface.
Thus, these surface waves are initially propagated parallel to the superlattice layers.
This superlattice structure forms the basis for the LS-FIR processor of the present invention.
