Laser Diode Principles: Stimulated Emission & Voltage

In summary, the conversation discusses the process of stimulated emission in laser diodes. When a forward biased voltage is applied, electrons from the N region diffuse to the P region and recombine, emitting photons of a specific wavelength due to the constant energy gap between conductive electrons and holes. In gaseous lasers, a populational inversion is necessary, which requires specific energy levels and a metastable state. The formal name for this phenomenon in semiconductors is the Bernard-Duraffourg condition, and more information can be found in the linked lecture notes.
  • #1
Goodver
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As far as I understand, when forward biased voltage applied, electrons from N diffuse to P, then recombine. Since energy gap between conductive electron and hole is const => only certain wavelength photons is emitted.

In gaseous lasers for example you need to gain a populational inversion, which requires to have a certain energy levels, including one of them to be metastable.

How the stimulated emission works for laser diodes?
 
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  • #3
By the way, the formal name for the semiconductor equivalent of population inversion which is discussed in the PDF linked by UltrafastPED is the Bernard-Duraffourg condition. If you need more details, that is the term to look for.
 
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1. What is a laser diode?

A laser diode is a semiconductor device that emits coherent light through the process of stimulated emission. It is similar to an LED in that it is composed of a p-n junction, but it differs in that it produces a single, highly focused beam of light.

2. How does stimulated emission occur in a laser diode?

Stimulated emission occurs when an electron in the conduction band of the semiconductor is excited by an external energy source, such as an electric current. This causes the electron to drop down to a lower energy state, releasing a photon of light in the process. The released photon then stimulates other excited electrons to emit photons, resulting in a chain reaction and the production of a laser beam.

3. What is the significance of the voltage in a laser diode?

The voltage in a laser diode is crucial for its operation because it determines the amount of current flowing through the device. Too little voltage can result in insufficient current to stimulate emission, while too much voltage can cause the diode to overheat and fail. Therefore, it is important to carefully regulate the voltage to ensure optimal performance and longevity of the diode.

4. How is the wavelength of a laser diode determined?

The wavelength of light emitted by a laser diode is determined by the bandgap energy of the semiconductor material it is made of. This energy is determined by the composition of the material and is a fixed value. The wavelength can also be adjusted slightly by changing the temperature or injecting additional current into the diode.

5. What are the applications of laser diodes?

Laser diodes have a wide range of applications, including telecommunications, barcode scanners, laser printers, DVD players, and medical devices. They are also used in cutting and welding materials, laser pointers, and various scientific and research fields. With their small size, low cost, and high efficiency, laser diodes have become an essential component in many modern technologies.

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