![]() ![]() Moreover, this phenomenon causes light from a coherent source to interfere with itself, which in results in creating a distinctive pattern on the screen called the diffraction pattern. Question 2: What is meant by single-slit diffraction?Īnswer 2: In the single-slit diffraction, observance can be made of the phenomenon of bending of light or diffraction. Moreover, the central maxima is obtainable at point 0 on the screen. ![]() Furthermore, central maxima is surrounded by dark and bright lines known as the secondary minima and maxima. Question 1: What is meant by diffraction maxima and minima?Īnswer 1: The diffraction pattern involves a central bright fringe, also known as the central maxima. ⇒ Angular width of central maximum = 2θ = 2λa FAQs For Single Slit Diffraction Well, the width of the central maximum is simply twice this value Now, one may ask how to find width of central maximum. The new wavefront is tangent to the wavelets. The emitted waves are semicircular, and occur at t, time later. Each point on the wavefront emits a wave at speed, v. The position of the minima expressed by y (whose measurement takes place from the centre of the screen) is: The principle can be shown with the equation below: (26.2.1) s v t where s is the distance, v is the propagation speed, and t is time. Furthermore, it simply refers to the distance between the first order minima from the centre of the screen existing on both sides of the centre. The maxima lies between the minima and the width of the central maximum. Similarly, for the nth fringe, division of the slit can take place into 2n parts and this condition can be used as: As such, one can obtain a dark fringe.įor the next fringe, division of the slit can take place into 4 equal parts of a/4 and the same logic can be applied. Therefore, at θ = sin − 1λa, there would be destructive interference because any ray emanating from a point has a counterpart that produces destructive interference. Furthermore, the path difference must be out of phase by λ2, with λ being the wavelength.įor a ray emanating from any point in the slit, there exists another ray at a distance a/2 from which destructive interference can take place. Moreover, one can consider any arbitrary pair of rays at a distance a/2.įor a dark fringe, the path difference must produce destructive interference. Furthermore, it is possible to consider any number of ray pairings that start from a distance a/2 from one another. The path difference exhibited by the top two rays is:Īn important point to remember is that this calculation is valid only if D is very large. Furthermore, consider a pair of rays whose emanation takes place from distances a/2 from each other. Also, the division of the slit can take place into zones of equal widths a/2. In order to describe the pattern, one must first look at the condition for dark fringes. Now, one can identify the angular position of any point on the screen by ϑ whose measurement takes place from the slit centre which divides the slit by a/2 lengths. x`D is the separation between slit and source. Single Slit Diffraction Formula of Single Slit DiffractionĬonsider that the slit width a << D. ![]()
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