Examples of 'electrons and holes' in a sentence
Meaning of "electrons and holes"
electrons and holes: This phrase refers to the movement of electrons and electron deficiencies (holes) within the context of semiconductor physics. Electrons and holes play a crucial role in the operation of electronic devices such as transistors and diodes
How to use "electrons and holes" in a sentence
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electrons and holes
Electrons and holes are known as charge carriers.
Calculate the number of electrons and holes.
Ballistic electrons and holes observed in a semiconductor.
Ionizing radiation produces free electrons and holes.
Electrons and holes are the charge carriers in semiconductors.
Thus equal numbers of electrons and holes are created.
Electrons and holes are confined within the isotope superlattice.
The carrier types correspond to electrons and holes.
The electrons and holes resemble rapidly spinning tops.
The result is a generation of free electrons and holes.
Electrons and holes are both fermions with half integer spin.
The charge carriers in semiconductor are electrons and holes.
Separating electrons and holes.
Light is generated in a semiconductor laser by radiative recombination of electrons and holes.
Mobility is also different for electrons and holes in a given semiconductor.
See also
The semiconductor nanobeam can in particular be able to receive electrons and holes.
The cyclotron masses of electrons and holes changed with concentration.
Electrons and holes reach an equilibrium at the junction and form a depletion region.
An led operates based on the recombination of electrons and holes in a semiconductor.
The energy state of electrons and holes in different semiconductor materials is different.
A dropleton or quantum droplet is a quasiparticle comprising a collection of electrons and holes inside a semiconductor.
Recombination of electrons and holes created by the applied current introduces optical gain.
A laser diode works in a similar fashion using electrons and holes to create a charge.
Electrons and holes in Semiconductors Shockley.
These clusters are bonding states made up of electrons and holes and can emit light.
When those electrons and holes recombine, light is formed.
They are named bipolar transistors because their operation involves both electrons and holes.
The process that creates and annihilates electrons and holes are called generation and recombination.
This field strongly modifies the band structure and tends to spacially separate electrons and holes.
This overlap is smaller for lighter electrons and holes and for highly excited hydrogenic states.
Electrons and holes in semiconductors, with applications to transistor electronics.
The nanowire thus forms an active volume where electrons and holes radiatively recombine.
When the electrons and holes combine, the leftover energy has to go somewhere.
Me and mh are the effective masses of electrons and holes respectively ;.
As electrons and holes are pushed toward the junction, the distance between them decreases.
Electronic loads, free electrons and holes of electron.
The light energy will be released, due to recombination of electrons and holes.
Radiative recombination of electrons and holes in a material, usually a semiconductor.
In an intrinsic semiconductor under thermal equilibrium, the concentrations of electrons and holes are equivalent.
The electrons and holes meet in active area 4 c and recombine, thus generating photons.
Besides, light generated by recombination of electrons and holes in quantum wells is omnidirectional.
The injected light is absorbed in the long wavelength cavity, generating electrons and holes.
In this way, a steady flow of free electrons and holes is established inside the semiconductor.
The " depletion region " immediately surrounding the junction thus becomes deficient in either electrons and holes.
This introduces electrons and holes to the system, which interact via a process called ambipolar diffusion.
Electroluminescence is the result of radiative recombination of electrons and holes in a material, usually a semiconductor.
Hence, the electrons and holes are called Dirac fermions.
These nano-objects emit light in the Telecomwavelength range by a radiative combination of electrons and holes.
Measured carrier mobilities for electrons and holes are shown in Figure 4.
In semiconductors, there are two types of charge carriers, electrons and holes.
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Examples of using Electrons
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They have more electrons than protons
The electrons are very close to the protons
They are going to hog the electrons in a covalent bond
Examples of using Holes
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Great holes have been cut in the earth
Always remove the lid or put holes in it
They cut holes behind every cabinet
