Lecture 41: WED 29 APR
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1 Physics 2102 Jonathan Dowling Lecture 41: WED 29 APR Ch. 36: Diffraction
2 PHYS FINAL 5:30-7:30PM FRI 08 MAY COATES 143 1/2 ON NEW MATERIAL 1/2 ON OLD MATERIAL Old Formula Sheet: spring2007/phys2102/ formulasheet.pdf
3 Radar: The Smaller The Wavelength the Better The Targeting Resolution X-band: λ=10cm K-band: λ=2cm Ka-band: λ=1cm Laser: λ=1 µm
4 Angles of the Secondary Maxima The diffraction minima are precisely at the angles where sin θ = p λ/a and α = pπ (so that sin α=0). However, the diffraction maxima are not quite at the angles where sin θ = (p+½) λ/a and α = (p+½)π (so that sin α =1) λ = 633 nm a = 0.2 mm! = max % & 2 3 p (p+½) λ/a θ Max θ (radians) To find the maxima, one must look near sin θ = (p+½) λ/a, for places where the slope of the diffraction pattern goes to zero, i.e., where d[(sin α/α) 2 ]/dθ = 0. This is a transcendental equation that must be solved numerically. The table gives the θ Max solutions. Note that θ Max < (p+½) λ/a. I I 2 # sin" $ ' " (
5 Example: Diffraction of a laser through a slit 1.2 cm Light from a helium-neon laser (λ = 633 nm) passes through a narrow slit and is seen on a screen 2.0 m behind the slit. The first minimum of the diffraction pattern is observed to be located 1.2 cm from the central maximum. How wide is the slit? y L (0.012 m) (2.00 m) 1! 1 = = = rad a # 7!! (6.33$ 10 m) # 3 sin " 1 " 1 (6.00$ 10 rad) = % = = $ = # m mm
6 Width of a Single-Slit Diffraction Pattern -y 1 0 y 1 y 2 y 3 y p w p! L = ; p = 1,2,3,! (positions of dark fringes) a w = 2! L a (width of diffraction peak from min to min)
7 1000m 10 m 1m 1m You are doing 137 mph on I-10 and you pass a little old lady doing 55mph when a cop, Located 1km away fires his radar gun, which has a 10 cm opening. Can he tell you from the L.O.L. if the gun Is X-band? What about Laser? X-band: λ=10cm Laser-band: λ=1µm w = 2!L a " 0.1m " 1000m =2 0.1m = 2000m w = 2!L a " m " 1000m =2 0.1m = 0.02m No! Beam is much wider than car separation too wide to tell who is who. Yes! Beam width is much less than car separation.
8 Exercise λ 1 λ 2 Two single slit diffraction patterns are shown. The distance from the slit to the screen is the same in both cases. Which of the following could be true? (a) The slit width a is the same for both; λ 1 >λ 2. (b) The slit width a is the same for both; λ 1 <λ 2. (c) The wavelength is the same for both; width a 1 <a 2. (d) The slit width and wavelength is the same for both; p 1 <p 2. (e) The slit width and wavelength is the same for both; p 1 >p 2.
9 Combined Diffraction and So far, we have treated diffraction and interference independently. However, in a two-slit system both phenomena should be present together. I 2slit Interference (! )' 2 & sin = (" )( ) *! + # a # a! = y = sin $ ; % L % # d # d " = y = sin $. % L % 2 4I1slit cos ; Interference Only Diffraction Only Both a d a θ (degrees) θ (degrees) θ (degrees) Notice that when d/a is an integer, diffraction minima will fall on top of missing interference maxima.
10 Diffraction Gratings A device with N slits (rulings) can be used to manipulate light, such as separate different wavelengths of light that are contained in a single beam. How does a diffraction grating affect monochromatic light? Fig Fig d sin! = m" for m = 0,1, 2 (maxima-lines) (36-11)
11 Circular Apertures Single slit of aperture a Hole of diameter D When light passes through a circular aperture instead of a vertical slit, the diffraction pattern is modified by the 2D geometry. The minima occur at about 1.22λ/D instead of λ/a. Otherwise the behavior is the same, including the spread of the diffraction pattern with decreasing aperture.
12 The Rayleigh Criterion The Rayleigh Resolution Criterion says that the minimum separation to separate two objects is to have the diffraction peak of one at the diffraction minimum of the other, i.e., Δθ = 1.22 λ/d. Example: The Hubble Space Telescope has a mirror diameter of 4 m, leading to excellent resolution of close-lying objects. For light with wavelength of 500 nm, the angular resolution of the Hubble is Δθ = 1.53 x 10-7 radians.
13 Example A spy satellite in a 200km low-earth orbit is imaging the Earth in the visible wavelength of 500nm. How big a diameter telescope does it need to read a newspaper over your shoulder from Outer Space?
14 Example Solution Δθ = 1.22 λ/d (The smaller the wavelength or the bigger the telescope opening the better the angular resolution.) Letters on a newspaper are about Δx = 10mm apart. Orbit altitude R = 200km & D is telescope diameter. Formula: Δx = RΔθ = R(1.22λ/D) D = R(1.22λ/Δx) Δx R Δθ = (200x10 3 m)(1.22x500x10 9 m)/(10x10 3 m) = 12.2m
15 Los Angeles from Space! Corona Declassified Spy Photo: Circa 1960 s
16 Some Professor s House: Google Maps 2009
17 Review of Interference from Thin Films! 12 =? Soap Bubble! " 0 Fig Oil Slick
18 Reflection Phase Shifts n 1 > n 2 n 1 n 2 λ = 360 = 2π λ/2 = 180 = π Reflection Reflection Phase Shift n 1 < n 2 Off lower index ---> 0 Off higher index ---> λ/2 = 180 = π n 1 n 2 High-To-Low: Phase Shift NO! Low-To-High: Phase Shift Pi! (35-15)
19 Equations for Thin-Film Interference Three effects can contribute to the phase difference between r 1 and r Differences in reflection conditions. Fig ! Difference in path length traveled. 3. Differences in the media in which the waves travel. One must use the wavelength in each medium (λ / n) to calculate the phase. ½ wavelength phase difference to difference in reflection of r 1 and r 2 odd number odd number 2 L = " wavelength = "! n2 (in-phase waves) L = integer " wavelength = integer "! n 2 (out-of-phase waves)!! 1 2 L = m + n2 2 for m = 0,1,2, (maxima-- bright film in air) n n 2 2! 2 L = m for m = 0,1, 2, (minima-- dark film in air) n (35-16)! = ( ) 2
20 Film Thickness Much Less Than λ r 2 If L is much less than l, for example L < 0.1λ, then phase difference due to the path difference 2L can be neglected. r 1 Phase difference between r 1 and r 2 will always be ½ wavelength destructive interference film will appear dark when viewed from illuminated side. As You Go Down Thickness Increases Steadily (Gravity) And Different Wavelengths hit Reflection Condition 2L=(m+1/2)λ/n 2 Reflective Coating Top of Soap Bubble Film is So Thin It Looks Dark At All Wavelengths: Anti-Reflective Coating! (35-17)
21 Color Shifting by Morpho Butterflies and Paper Currencies For the same path difference, different wavelengths (colors) of light will interfere differently. For example, 2L could be an integer number of wavelengths for red light but half-integer wavelengths for blue. Furthermore, the path difference 2L will change when light strikes the surface at different angles, again changing the interference condition for the different wavelengths of light. Fig (35-18)
22 Problem Solving Tactic 1: Thin-Film Equations Equations and are for the special case of a higher index film flanked by air on both sides. For multilayer systems, this is not always the case and so these equations are not appropriate. What happens to these equations for the following system? r 2 r 1 L n 1 =1 n 2 =1.5 n 3 =1.7 (35-19)
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