What is the Difference Between Diffusion Current and Drift Current?
🆚 Go to Comparative Table 🆚The main difference between diffusion current and drift current lies in their causes and directions. Here is a comparison of the two types of currents:
- Diffusion Current:
- Caused by the diffusion of charge carriers (electrons and holes) in a semiconductor material due to a concentration gradient.
- Direction depends on the slope of the carrier concentration.
- Obeys Fick's law: $$J=-qD\frac{d\rho}{dx}$$.
- Occurs in junction diodes or semiconductor devices.
- The primary carrier concentrations define the diffusion current's direction.
- Drift Current:
- Caused by the motion of charge carriers due to the force exerted on them by an electric field.
- Direction is always in the direction of the electric field.
- Obeys Ohm's law.
- Found in all conducting materials where the current flows as the flow of electrons.
- The drift current follows Ohm's law and is mainly influenced by the external field and charge carrier concentrations.
In summary, diffusion current is caused by the diffusion of charge carriers in response to a concentration gradient, while drift current is caused by the motion of charge carriers under the influence of an electric field. The direction of the diffusion current depends on the slope of the carrier concentration, whereas the drift current always flows in the direction of the electric field.
On this pageWhat is the Difference Between Diffusion Current and Drift Current? Comparative Table: Diffusion Current vs Drift Current
Comparative Table: Diffusion Current vs Drift Current
Here is a table comparing the differences between diffusion current and drift current:
| Diffusion Current | Drift Current |
|---|---|
| Occurs due to the motion of charge carriers from higher concentration to lower concentration | Occurs due to the movement of charge carriers in response to an applied electric field |
| Does not require an external electric field | Requires an external electric field |
| Depends primarily on the repulsive forces between carriers | Depends on the external field and charge carrier mobility |
| Direction of the current flow is determined by the concentration gradient | Direction of the current flow is determined by the electric field |
| flow of holes and electrons are in the same direction as the concentration gradient | Positive carriers or holes flow in the same direction as the electric field, while negative carriers or electrons flow in the reverse direction |
| Net movement of charged particles creates a diffusion current | Net movement of charged particles creates a drift current |
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