Semiconductor Charge Neutrality (Q13231): Difference between revisions
From MaRDI portal
Created claim: instance of (P3): Computational Task (Q3863) |
Created claim: description (P896): The physical concept of local charge neutrality in semiconductor is characterized by the absence of space charge regions. Hence, the Poisson equation for the electric field potential simplifies to the Laplace equation. |
||
| Property / description | |||
The physical concept of local charge neutrality in semiconductor is characterized by the absence of space charge regions. Hence, the Poisson equation for the electric field potential simplifies to the Laplace equation. | |||
| Property / description: The physical concept of local charge neutrality in semiconductor is characterized by the absence of space charge regions. Hence, the Poisson equation for the electric field potential simplifies to the Laplace equation. / rank | |||
Normal rank | |||
Revision as of 10:27, 26 March 2025
concept of local charge neutrality in semiconductor
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Semiconductor Charge Neutrality |
concept of local charge neutrality in semiconductor |
Statements
The physical concept of local charge neutrality in semiconductor is characterized by the absence of space charge regions. Hence, the Poisson equation for the electric field potential simplifies to the Laplace equation.
0 references
