External Cavity Laser: Ultra Narrow Line Width

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External cavity lasers achieve ultra narrow line widths primarily through the use of an external diffraction grating, which allows for precise wavelength tuning. Although a larger cavity typically reduces the free spectral range and introduces more longitudinal modes, the external configuration enables better control over these modes. The external cavity's design can effectively suppress unwanted modes, leading to improved linewidth characteristics. This counterintuitive relationship highlights the importance of the external elements in optimizing laser performance. Overall, the combination of external tuning mechanisms and cavity design is crucial for achieving ultra narrow line widths in these lasers.
narra
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Hello,

How does an external cavity laser produce ultra narrow line width when it's larger cavity should reduce the free spectral range and thus introduce more longitudinal modes?

Thanks.
 
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The external cavity lasers I am familiar with are diode lasers that have an external diffraction grating and vertical-cavity surface emitting lasers that use an external distributed Bragg reflector:

http://www.rp-photonics.com/external_cavity_diode_lasers.html

The external diffractive element provides the mechanism for narrowing the linewidth.
 
Hi,

Thanks for your reply. My understanding was that the diffraction grating just provided a means of tuning the central wavelength. I thought that perhaps the fact that the cavity was external was the key to offering ultra narrow linewidth ... although seems counter intuitive since a shorter cavity would promote fewer longitudinal modes.
 
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