Laser diode
- 1. LASER DIODE Presentation on Laser diode Group members: Shahid Hussain (069) Saqlain raza (068) Ashfaq Hussain (064)
- 2. Introduction to Laser Diode LASER stands for Light Amplification by Stimulated Emission of Radiation. A laser diode is an electronic device, which converts electrical energy into light energy to produce high-intensity coherent light. Laser diode is very small in size and appearance. It is similar to a transistor and has operation like LED but it emit coherent light. The material which often used in Laser diode is the gallium Arsenide (GaAs). It is also called injection laser diode. It work on forward biasing.
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- 4. Laser diode construction The laser diode is made of two doped gallium arsenide layers. One doped gallium arsenide layer will produce an n-type semiconductor whereas another doped gallium arsenide layer will produce a p-type semiconductor. In laser diodes, selenium, aluminum, and silicon are used as doping agents. P-N junction When a p-type layer is joined with the n-type layer, a p-n junction is formed. The point at which the p-type and n-type layers are joined is called p-n junction. The p-n junction separates the p-type and n-type semiconductors.
- 5. Main steps required for producing a coherent beam of light in laser diodes Absorption of energy: Absorption of energy is the process of absorbing energy from the external energy sources. In laser diodes, electrical energy or DC voltage is used as the external energy source. When the DC voltage or electrical energy supplies enough energy to the valence electrons or valence band electrons, they break bonding with the parent atom and jumps into the higher energy level (conduction band). The electrons in the conduction band are known as free electrons.
- 6. Cont… When the valence electron leaves the valence shell, an empty space is created at the point from which electron left. This empty space in the valence shell is called a hole. Thus, both free electrons and holes are generated as a pair because of the absorption of energy from the external DC source.
- 7. Spontaneous emission: Spontaneous emission is the process of emitting light or photons naturally while electrons falling to the lower energy state. In laser diodes, the valence band electrons or valence electrons are in the lower energy state. Therefore, the holes generated after the valence electrons left are also in the lower energy state. On the other hand, the conduction band electrons or free electrons are in the higher energy state. In simple words, free electrons have more energy than holes. The free electrons in the conduction band need to lose their extra energy in order to recombine with the holes in the valence band. The free electrons in the conduction band will not stay for long period. After a short period, the free electrons recombine with the lower energy holes by releasing energy in the form of photons.
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- 9. Stimulated emission: Stimulated emission is the process by which excited electrons or free electrons are stimulated to fall into the lower energy state by releasing energy in the form of light. The stimulated emission is an artificial process. In stimulated emission, the excited electrons or free electrons need not wait for the completion of their lifetime. Before the completion of their lifetime, the incident or external photons will force the free electrons to recombine with the holes. In stimulated emission, each incident photon will generate two photons. All the photons generated due to the stimulated emission will travel in the same direction. As a result, a narrow beam of high-intensity laser light is produced.
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- 11. How laser diode works? When DC voltage is applied across the laser diode, the free electrons move across the junction region from the n-type material to the p-type material. In this process, some electrons will directly interact with the valence electrons and excites them to the higher energy level whereas some other electrons will recombine with the holes in the p-type semiconductor and releases energy in the form of light. This process of emission is called spontaneous emission. The photons generated due to spontaneous emission will travel through the junction region and stimulate the excited electrons (free electrons). As a result, more photons are released. This process of light or photons emission is called stimulated emission. The light generated due to stimulated emission will moves parallel to the junction.
- 12. Cont… The two ends of the laser diode structure are optically reflective. One end is fully reflective whereas another end is partially reflective. The fully reflective end will reflect the light completely whereas the partially reflective end will reflect most part of the light but allows a small amount of light. The light generated due to the stimulated emission is escaped through the partially reflective end of the laser diode to produce a narrow beam laser light. All the photons generated due to the stimulated emission will travel in the same direction. Therefore, this light will travel to long distances without spreading in the space.
- 13. Diagram
- 14. Advantages of laser diodes Simple construction Lightweight Very cheap Small size Highly reliable compared to other types of lasers. Longer operating life High efficiency Mirrors are not required in the semiconductor lasers. Low power consumption
- 15. Disadvantages of laser diodes Not suitable for the applications where high powers are required. Semiconductor lasers are highly dependent on temperature.
- 16. Applications of laser diodes Laser diodes are used in laser pointers. Laser diodes are used in fiber optic communications. Laser diodes are used in barcode readers. Laser diodes are used in laser printing. Laser diodes are used in laser scanning. Laser diodes are used in range finder