More current means more charge carriers are filling the plates of the capacitor and eventually once enough of them line up on the plates, they increase the voltage across a capacitor.
Now think of a charge carrier - an electron, say - in the n-type region.
A laser beam, by itself, cannot conduct electricity because it contains no charge carriers such as electrons to produce a current flow.
The n- and p- stand for Negative and Positive, as the dominant charge carrier in n-type materials are the negative electrons.
In a conductor, say a metal wire, the charge carriers are able to move under the influence of even a tiny electric field.
1.1A mobile electron or hole by which electric charge passes through a semiconductor.
电荷载流子
Example sentencesExamples
At these low temperatures the mobility edge can be probed without the complication of thermal activation - a process that assists charge carrier transport in semiconductors due to large thermal energy at high temperatures.
Electrons are not the only charge carriers; holes, or open spaces in bonding sites can also be used in conduction.
This is due to the difficulty of maintaining control of charge carriers moving through the transistor when using only a single gate.
We can now take a moment to discuss some of the properties of the two types of charge carriers; electrons and holes.
However, by providing a means for electrons to move, it effectively serves as a conductive charge carrier.
Definition of charge carrier in US English:
charge carrier
noun
1A particle which carries an electric charge.
电荷载体
Example sentencesExamples
The n- and p- stand for Negative and Positive, as the dominant charge carrier in n-type materials are the negative electrons.
A laser beam, by itself, cannot conduct electricity because it contains no charge carriers such as electrons to produce a current flow.
More current means more charge carriers are filling the plates of the capacitor and eventually once enough of them line up on the plates, they increase the voltage across a capacitor.
Now think of a charge carrier - an electron, say - in the n-type region.
In a conductor, say a metal wire, the charge carriers are able to move under the influence of even a tiny electric field.
1.1A mobile electron or hole by which electric charge passes through a semiconductor.
电荷载流子
Example sentencesExamples
This is due to the difficulty of maintaining control of charge carriers moving through the transistor when using only a single gate.
Electrons are not the only charge carriers; holes, or open spaces in bonding sites can also be used in conduction.
We can now take a moment to discuss some of the properties of the two types of charge carriers; electrons and holes.
At these low temperatures the mobility edge can be probed without the complication of thermal activation - a process that assists charge carrier transport in semiconductors due to large thermal energy at high temperatures.
However, by providing a means for electrons to move, it effectively serves as a conductive charge carrier.