Optical phenomena in semiconductors
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Hall effect in semiconductors Let's look at the semi-conductor in the form of a straight-angle parallelepiped-shaped direction along which the magnetic induction vector is directed along the longitudinal side of the density stream (Figure 1). The effect of Hall is characterized by the difference between the potential and the potential difference between the upper and lower edges of the sample. Here's an explanation of this effect. Let's first look at the acceptor semiconductor. with density and pitch - bound by the drift velocity of a free electron motion. Moving to the Figure 1. An absorption semiconductor of the surface charge and the electric field strength . British Journal of Global Ecology and Sustainable Development Volume-16, May, 2023 ISSN (E): 2754-9291 87 magnetic field , the electrodynamics are known to affect Lorens' power (Figure 1 upward): the pits begin to move upwards and force negative charge on the upper side of the sample, and the negative currents at the bottom begin to accumulate, and on each side there are generated excess gear motors that are noticeable with a charge sign. These charges cause the electrostatic field to become stronger and it forces them to move up the pit. This accumulation of charging forces the Lorens forces to be the same in quantity when there is a certain vа value of electric field due to the magnitude. , we will have a relationship that makes it easier to analyze the results Yüklə 426,1 Kb. Dostları ilə paylaş:
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