What is diffraction-induced spread?

The spread of the spot (obtained on the opposite wall of the camera) is thought to equal the total of its geometrical spread and the spread caused by diffraction when the hole is lit by a parallel beam of light with wavelength lambda. When waves flow through an aperture or around objects, they spread out, which is referred to as diffraction. It happens when the wavelength of the incident wave and the size of the aperture or obstruction are on the same order of magnitude. The majority of the wave is blocked at extremely small aperture diameters.

The Minimum Angular Spread Due to Diffraction

10 May 2022

The Concept of Diffraction-Induced Spread

Diffraction-induced spread refers to the phenomenon where waves spread out as they pass through an aperture or around objects. This spreading out of waves occurs when the wavelength of the incident wave is similar in size to the aperture or obstruction it encounters.

When a wave encounters an obstruction or passes through a small aperture, diffraction causes it to spread out. This spreading out results in the wave interfering with itself, leading to various diffraction patterns that can be observed.

Calculating Minimum Angular Spread Due to Diffraction

The formula to calculate the minimum angular spread due to diffraction is given by:

Minimum angular spread due to diffraction (Î¸) = Î»/b

Given:

Wavelength (Î») = 633 nm = 633Ã10â»â¹m
Beam diameter (b) is 1 mm (converted to meters)

Substitute the values into the formula:

Minimum angular spread due to diffraction (Î¸) = 633Ã10â»â¹m / 1

Minimum angular spread due to diffraction (Î¸) = 633Ã10â»â¹m

Therefore, the minimum angular spread due to diffraction is 633Ã10â»â¹m.

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The Concept of Diffraction-Induced Spread

Calculating Minimum Angular Spread Due to Diffraction

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