What Is a Semiconductor Laser?
- Semiconductor lasers convert electrical energy into light. This happens due to semiconductor materials, which are capable of conducting electricity between insulators and conductors. If you douse a semiconductor with certain amounts of impurities, you can alter the amount of negatively charged electrons or positively charged holes.
- In comparison to other lasers, semiconductor lasers have the benefits of being relatively dependable, compact and durable. However, semiconductor performance relies on certain factors such as output brightness (high brightness directly pertains to power efficiency), output power (determines feed rates for processes) and also operating lifetime (the longer the laser can last, the cheaper it is to operate).
- The two basic parts that make up semiconductor lasers are resonators and optical amplifiers. The resonator functions to recirculate light via the optical amplifier. It also helps to focus the light. The optical amplifier works by amplifying signals directly, without initially having to convert the signals into electric signals.
- There are various different types of semiconductor lasers in existence, including silicon lasers (essential for optical computing), hybrid silicon lasers, Raman lasers (lasers that utilize Raman scattering), quantum cascade lasers (lasers with active transition), vertical cavity surface emitting lasers (VCSEL, with emissions perpendicular to water surfaces) and various other semiconductor lasers, all with their own individual functions.
- For those interested in learning more about semiconductor lasers, there is a biannual Semiconductor Laser Conference. These conferences have been held in locations all over the world, including Sorrento, Italy. These meetings discuss contemporary achievements in the areas of semiconductor lasers and related technologies.
