Coherence plays a crucial role in producing clear and stable interference patterns.
Here’s why:
- Definition of Coherence:
- Coherence refers to the fixed phase relationship between two or more waves over time and space.
- For interference to occur, the light waves must maintain a consistent phase difference.
- Types of Coherence:
- Temporal coherence ensures that the waves remain in phase over time. This depends on the monochromaticity (single wavelength) of the light.
- Spatial coherence ensures that the waves remain in phase across different points in space. This is important when light comes from a single point source or narrow slit.
- Stable Interference Patterns:
- If the light is coherent (like from a laser), it produces sharp and stable interference fringes.
- If the light is incoherent (like from a bulb), the phase changes randomly, and any interference patterns quickly blur or disappear.
- Double-Slit Experiment Example:
- To observe bright and dark fringes, the light from the two slits must be coherent.
- That’s why a single slit or a laser is often used to ensure the waves reaching the two slits are coherent.