What is photons? Explain with diagram
Answers
Answer:
photons are the discrete packets of light energy which either get emitted or absorbed by a body .
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Answer:
A light-emitting diode (LED) is a semiconductor light source that emits light when current flows through it. Electrons in the semiconductor recombine with electron holes, releasing energy in the form of photons.
It works on the principle of Electroluminescence:
Electroluminescence (EL) is an optical phenomenon and electrical phenomenon in which a material emits light in response to the passage of an electric current or to a strong electric field.
Working Principle of LED
The working principle of the Light emitting diode is based on the quantum theory. The quantum theory says that when the electron comes down from the higher energy level to the lower energy level then, the energy emits from the photon. The photon energy is equal to the energy gap between these two energy levels. If the PN-junction diode is in the forward biased, then the current flows through the diode.
Working Principle of LED
Working Principle of LED
The flow of current in the semiconductors is caused by the both flow of holes in the opposite direction of current and flow of electrons in the direction of the current. Hence there will be recombination due to the flow of these charge carriers.
The recombination indicates that the electrons in the conduction band jump down to the valence band. When the electrons jump from one band to another band the electrons will emit the electromagnetic energy in the form of photons and the photon energy is equal to the forbidden energy gap.
For an example, let us consider the quantum theory, the energy of the photon is the product of both Planck constant and frequency of electromagnetic radiation. The mathematical equation is shown
Eq = hf
Where h is known as a Planck constant, and the velocity of electromagnetic radiation is equal to the speed of light i.e c. The frequency radiation is related to the velocity of light as a f= c / λ. λ is denoted as a wavelength of an electromagnetic radiation and the above equation will become as a
Eq = he / λ
From the above equation, we can say that the wavelength of electromagnetic radiation is inversely proportional to the forbidden gap. In general silicon, germanium semiconductors this forbidden energy gap is between the condition and valence bands are such that the total radiation of electromagnetic wave during recombination is in the form of the infrared radiation. We can’t see the wavelength of infrared because they are out of our visible range.
The infrared radiation is said to be as a heat because the silicon and the germanium semiconductors are not direct gap semiconductors rather these are indirect gap semiconductors. But in the direct gap semiconductors, the maximum energy level of the valence band and minimum energy level of conduction band does not occur at the same moment of electrons. Therefore, during the recombination of electrons and holes are a migration of electrons from the conduction band to valence band the momentum of electron band will be changed.
Applications of Light Emitting Diodes
There are many applications of the LED and some of them are explained below.
LED is used as a bulb in the homes and industries
The light emitting diodes are used in the motorcycles and cars
These are used in the mobile phones to display the message
At the traffic light signals led’s are used
Advantages of LED’s
The cost of LED’s is less and they are tiny.
By using the LED’s the electricity is controlled.
The intensity of the LED differs with the help of the microcontroller.