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Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET PDF Download

homojunction is a semiconductor interface that occurs between layers of similar semiconductor material, these materials have equal band gaps but typically have different doping. In most practical cases a homojunction occurs at the interface between an n-type (donor doped) and p-type (acceptor doped) semiconductor such as silicon, this is called a p-n junction.

This is not a necessary condition as the only requirement is that the same semiconductor (same band gap) is found on both sides of the junction, in contrast to a heterojunction. An n-type to n-type junction, for example, would be considered a homojunction if the doping levels are different.

The different doping level will cause band bending, and depletion region will be formed at the interface, as shown in the right figure.

Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET

A homojunction PN junction. The band at the interface is continuous. In forward bias mode, the depletion width decreases. Both p and n junctions are doped at a 1e15/cm3 doping level, leading to built-in potential of ~0.59V. Observe the different Quasi Fermi levels for conduction band and valence band in n and p regions (red curves).

The document Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences | Physics for IIT JAM, UGC - NET, CSIR NET is a part of the Physics Course Physics for IIT JAM, UGC - NET, CSIR NET.
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FAQs on Homojunction Devices - Semiconductor Devices, CSIR-NET Physical Sciences - Physics for IIT JAM, UGC - NET, CSIR NET

1. What are homojunction devices?
Ans. Homojunction devices are semiconductor devices in which the p-type and n-type regions are formed from the same semiconductor material. This means that the junction between the p-type and n-type regions is formed by doping the same material with different impurities to create the desired conductivity types.
2. How do homojunction devices work?
Ans. Homojunction devices work by utilizing the properties of the p-n junction formed between the p-type and n-type regions. When a voltage is applied across the device, it creates an electric field at the junction, which controls the flow of charge carriers (electrons and holes). This allows the device to perform various functions, such as amplification, switching, and rectification.
3. What are some examples of homojunction devices?
Ans. Some examples of homojunction devices include bipolar junction transistors (BJTs), diodes, and solar cells. These devices are commonly used in electronic circuits for various applications, such as signal amplification, voltage regulation, and energy conversion.
4. What are the advantages of homojunction devices?
Ans. Homojunction devices offer several advantages. Firstly, they are relatively easy to fabricate compared to heterojunction devices. Secondly, they have lower resistance at the junction, leading to lower power dissipation. Additionally, homojunction devices have better thermal stability and can operate at higher temperatures compared to heterojunction devices.
5. What are the limitations of homojunction devices?
Ans. Despite their advantages, homojunction devices also have some limitations. One limitation is that they can suffer from higher leakage currents due to the lack of a built-in electric field at the junction. Another limitation is the limited control of carrier injection and recombination, which can affect device performance. Finally, homojunction devices may have limited compatibility with other materials, which can restrict their use in certain applications.
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