What is Diffraction grating: Definition and 202 Discussions

In optics, a diffraction grating is an optical component with a periodic structure that splits and diffracts light into several beams travelling in different directions. The emerging coloration is a form of structural coloration. The directions of these beams depend on the spacing of the grating and the wavelength of the light so that the grating acts as the dispersive element. Because of this, gratings are commonly used in monochromators and spectrometers.
For practical applications, gratings generally have ridges or rulings on their surface rather than dark lines. Such gratings can be either transmissive or reflective. Gratings that modulate the phase rather than the amplitude of the incident light are also produced, frequently using holography.The principles of diffraction gratings were discovered by James Gregory, about a year after Isaac Newton's prism experiments, initially with items such as bird feathers. The first man-made diffraction grating was made around 1785 by Philadelphia inventor David Rittenhouse, who strung hairs between two finely threaded screws. This was similar to notable German physicist Joseph von Fraunhofer's wire diffraction grating in 1821. Gratings with the lowest line-distance (d) were created, in the 1860s, by Friedrich Adolph Nobert (1806–1881) in Greifswald; then the two Americans Lewis Morris Rutherfurd (1816–1892) and William B. Rogers (1804–1882) took over the lead; and, by the end of the 19th century, the concave gratings of Henry Augustus Rowland (1848–1901) were the best available.Diffraction can create "rainbow" colors when illuminated by a wide-spectrum (e.g., continuous) light source. The sparkling effects from the closely spaced narrow tracks on optical storage disks such as CDs or DVDs are an example. Similar rainbow effects seen in thin layers of oil (or gasoline, etc.) on water are not caused by a grating but rather by iridescence in reflections from the closely spaced transmissive layers. A grating has parallel lines, while a CD has a spiral of finely spaced data tracks. Diffraction colors also appear when one looks at a bright point source through a translucent fine-pitch umbrella-fabric covering. Decorative patterned plastic films based on reflective grating patches are very inexpensive and commonplace.

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  1. CAH

    Diffraction grating and wavelength

    Hi I've attached the question and mark scheme, I don't understand part 6(d)... Why have they used sin90? nλ=dsinθ If there is another order beam how can it be known the angel at which it exists from the zero order? Thanks
  2. A

    Diffraction grating with high intensity in first order

    I'm searching for a reflexive diffraction grating with at least 1500 line per mm and high intensity in first order. Common reflexive diffraction grating don't have enough intensity for my experiment. I need to help for getting such grating. Thanks
  3. CAH

    Where is fringe spacing measured from with white light?

    Fringe spacing is the distance between two adjacent maxima or minima. For white light, is a maxima the distance from red to red (green to green, blue to blue..)? or the middle of the maxima to another middle of another maxima (i see that this distance will be the same since its middle to middle...
  4. HaLAA

    Calculating the Speed of a Galaxy Using Diffraction Grating and Doppler Effect

    Homework Statement Taking light collected by the telescope and shine it through a diffraction grating with a 765.5 lines/mm. Using the filter that just the brightest Helium II line. you cast the diffraction grating's diffracted pattern on a screen is 22.000cm away and there are 3 dots, m=-1...
  5. W

    Problem with wave optics - diffraction grating?

    Homework Statement For your science fair project, you need to design a diffraction grating that will disperse the visible spectrum (400-700nm) over 30 degrees in first order. How many lines per mm does your grating need?Homework Equations sin(Θ) = mλ/d y = Ltan(Θ) I'm pretty sure the only...
  6. L

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  7. S

    Does a diffraction grating with a shape form fourier image

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  8. A

    Minima of a diffraction grating

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  9. G

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  10. N

    Diffraction Grating wavelength

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  11. SarahLou

    Diffraction grating and Dirac comb

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  12. Greg Bernhardt

    What is diffraction grating and how does it work?

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  13. Rookie

    What is the Separation of Two Apertures in a Light Diffraction Grating?

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  14. U

    Covering a slit in a diffraction grating - what happens?

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  15. P

    Near field of a diffraction grating?

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  16. B

    Diffraction grating interference

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  17. U

    Diffraction grating, magnification

    Homework Statement Part (a):Sketch zeroth and first order rays. Find the angle of first order rays make to normal. Part (b): Sketch intensity distribution at 7.5mm and 10mm. Part (c): Explain how this is useful in understanding a microscope. Homework Equations The Attempt at...
  18. D

    MHB Diffraction Grating: Uses, Light as Particle & When - 65 characters

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  19. P

    Diffraction Grating problem (waves and optics)

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  20. N

    How Does Diffraction Grating Reveal CD and DVD Storage Capacities?

    Hello, I have to do an experiment in which I will investigate the diffraction grating of a CD and a DVD. I want to find out the spacing of tracks on both of them and thus find how much information can be stored. Also I want to compare them (density of tracks etc.) and maybe even suggest...
  21. S

    Please help i cant understand anything about diffraction grating

    why should we use a convex lens to focus the rays at the point on the screen.why is at an angle instead of being straight?
  22. U

    Diffraction Grating, focal length of lens

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  23. A

    Diffraction grating: arbitrary incident angle

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  24. A

    Diffraction grating with monochromatic light vs. white light?

    (A) What kind of pattern of would you get if you shone monochromatic light on a diffraction grating? What pattern of light would you get if you shone white light on a diffraction grating? My answer: With monochromatic light, you would get a pattern of alternating light and dark bands. With...
  25. M

    Single slit double slit and diffraction grating

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  26. G

    Diffraction grating with slits out of phase

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  27. M

    Diffraction grating experiment

    I did an experiment where a red laser went through a diffraction grating The distance between the diffraction grating to the screen is 10cm (x) Later I measure the distance from the central dot to the first dot (4.5cm) (y) after this I measure the distance from the central dot to the second...
  28. D

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    Homework Statement Show that the equation mλ=dsinθ becomes mλ=d[ sin(θ-κ) + sin(κ) ] when the light is incident on the diffraction grating at an angle κ to the normal. Homework Equations The Attempt at a Solution I am not quite sure of the answer (we are just learning this in...
  29. H

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    Green and orange light pass through a diffraction grating that contains 6000 lines/cm. Compare the appearance of the fringe at m = 0 with all the others. So far I've only dealt with light with one wavelength, so I just want to make sure I have the right thought process here for two...
  30. J

    Rebuild Diffraction Grating From Fourier Frequency Components

    I have a diffraction grating through which I shined a 532 nm laser. A detector which can pan 360˚ was rotated around and picked up all of the transmitted diffraction peaks. Shown in the graph graph attached are the intensities of the peaks against the angle. My question is, is it possible to...
  31. M

    Maximums on a Diffraction Grating

    Homework Statement Consider an array of parallel wires with uniform spacing of 1.40 cm between centers. In air at 20.0°C, ultrasound with a frequency of 35.6 kHz from a distant source is incident perpendicular to the array. (Take the speed of sound to be 343 m/s.) (a) Find the number of...
  32. K

    Diffraction Grating Angle Between Second Order Maxima

    Hi Everbody, I am having a bit of trouble with an AS Physics question regarding diffraction gratings. I have managed to solve the problem that I have been facing, although I am not completely sure that I got to it through the correct means, and also why the answer is such. Homework...
  33. M

    Diffraction Grating And Lightbulb

    An incandescent lightbulb produces incoherent light. But on Wikipedia, for instance, there is a picture of it producing a rainbow diffraction pattern on the diffraction grating page. But since the bulb is putting out incoherent light, it should be intensities rather than fields that add...
  34. S

    Size of the Diffraction grating ?

    Size of the "Diffraction grating"? Is the size of the "Diffraction grating" related to the sharpness/brightness of the lines of spectrum which are produced by it? Thanks.
  35. Darth Frodo

    Diffraction Grating - Resolving Power

    Homework Statement 4. Light from a mercury discharge lamp contains 2 yellow lines at 577 nm and 579 nm. Find the angle of diffraction for the 577 nm line in second order when passed through a grating having 2400 lines at 80 lines per mm. What is the expected dispersion in second order in the...
  36. J

    Diffraction grating of laser light

    Homework Statement a narrow beam of laser light (i.e coherent monochromatic light) wavelength 630nm is incident on a grating having 300 lines per mm. a piece of paper is curved 180 degrees beyond the grating. calculate how many spots of red light should be seenHomework Equations...
  37. Nemo's

    Why Do Second and Third Order Spectra Overlap in Diffraction Grating?

    Homework Statement White light is incident normally on a diffraction grating with slit separation d of 2.00x10^-6m. a)Calculate the angle between the red and violet ends of the first-order spectrum. The visible spectrum has wavelength between 400nm and 700nm. b)Explain why the second and the...
  38. O

    Basic formula for diffraction grating

    Homework Statement For the diffraction grating that used to detect the wavelength of a wave, we use d sinθ= nλ. When we find r1-r2 to get nλ. 1) What is the assumption we should make? 2)Then why r1-r2 will get λ?Homework Equations d sinθ= nλ...
  39. genxium

    [Lab]difference between diffraction grating and linear polarizer ?

    [Lab]difference between "diffraction grating" and "linear polarizer" ? I'm recently looking for optical devices to do some experiments at home, like diffraction and polarization, but when I turn to Amazon for the goods, I found that both the sheets I want are marked: 500 lines/mm -- diffraction...
  40. A

    Sun's light beam and diffraction grating

    Hello. Lets say we have 2 small holes (1&2) which makes tiny light beam from the Sun's light. (similar to laser beam) ......1|......|2... (Sun) -> >-------------------------------------|dg|-----{order 0}-------(Earth) ......1|......|2... |dg| is diffraction grating perpendicular to the light...
  41. S

    Diffraction grating, number of slits, and intensity

    Homework Statement Got a question in a school examination, but here's the part I want to ask. How does the number of slits per unit length, affect the intensity of the diffraction pattern? What I do know is that the finer the slit separation, the wider the angle opens up. But intensity is...
  42. S

    Solving Diffraction Grating Homework: Max Wavelength at 11°

    Homework Statement A monochromatic plane wave is normally incident on a diffraction grating with 105 lines/m. For what visible wavelengths would this grating produce a maximum at 11°. Homework Equations d*sinθ = m*λ The Attempt at a Solution d = 1 x 10-5 m I don't get how to...
  43. D

    How Far Do Different Colors Spread in a Diffraction Grating Experiment?

    Question: Light from a slit passes through a transmission diffraction grating of 475 lines/mm, which is located 2.8m from a screen. What are the distances on the screen (from the unscattered slit image) of the three birghtest (first-order, n=1) hydrogen lines for red 657nm, blue-green 486nm...
  44. Z

    Solving Diffraction Grating Homework Problem

    Homework Statement When a monochromatic light of wavelength 600 nm is viewed 2 m away through a diffraction grating, two similar lamps are observed, one on each side of it, and each 0.30 m away from it. Calculate the number of lines in the grating Homework Equations sinθ = (n*λ)/d...
  45. L

    Diffraction grating, angular with of the intensity peaks to the first maximum

    Homework Statement A diffraction grating is ruled with 500 lines/mm and is 1 mm in width. Calculate the angular width of the intensity peaks to the first minimum in the Fraunhofer diffraction pattern of this grating, when illuminated with light of λ = 600 nm. Homework Equations n-...
  46. majormaaz

    Diffraction Grating and Maximums

    Homework Statement A grating has 728 lines per centimeter. Find the angles of the first three principal maxima above the central fringe when this grating is illuminated with 680 nm light. Homework Equations Our teacher briefly told us that N = # of slits / cm and that d sin θ = mλ, and...
  47. D

    Intensity Distribution of 4 Slit diffraction grating using convolution

    Hi all, I am trying figure out this diffraction problem. I have to find the intensity distribution of a four slit fraunhofer diffraction grating using the convolution theorem. I can do the math and all...but I do not know how to start it! The only information I am given is the slits have...
  48. M

    A Haunting question on diffraction grating

    Homework Statement This question is pretty interesting, but a bit long, so bear with me http://www.xtremepapers.com/CIE/International%20A%20And%20AS%20Level/9702%20-%20Physics/9702_w07_qp_2.pdf question 5 part c For (i) The width of each slit is increased but the separation remains...
  49. M

    Diffraction grating sum, 1 mark mcq question (a level)

    Homework Statement Im having a bit trouble with diffraction gratings lately, with sums like this: A parallel beam of light of wavelength 450 nm falls normally on a diffraction grating which has 300 lines /mm. What is the total number of transmitted maxima? A 7 B 8 C 14...
  50. M

    Calculating the wavelength of a laser? (Diffraction grating)

    Hi, I'm doing a experiment/report on this topic, I'm trying to get a better understanding of the equation "nλ = dsinθ" ALL length measurements are in meters for simplicity's sake. n = bright spot number from the central bright spot (n0) d = distance between slits The angle "θ" and distance...
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