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Announcements 11/19/10 Prayer TA won’t have office hours on Tuesday next week (even though Tuesday = Friday classes). Neither will I. (HW 36 = only 2 problems.)

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Presentation on theme: "Announcements 11/19/10 Prayer TA won’t have office hours on Tuesday next week (even though Tuesday = Friday classes). Neither will I. (HW 36 = only 2 problems.)"— Presentation transcript:

1 Announcements 11/19/10 Prayer TA won’t have office hours on Tuesday next week (even though Tuesday = Friday classes). Neither will I. (HW 36 = only 2 problems.) Addition to Monday’s reading assignment: also includes PpP chapter 10, “Modern optical devices”

2 Reading Quiz What does Rayleigh’s criterion tell us? a. a.The angle at which both light polarizations have equal reflection coefficients b. b.The angle at which p polarized light has minimum reflection c. c.The angular separation resolvable by an imaging system d. d.The number of orders produced by a diffraction grating

3 Circular Aperture, again

4 What do you get in this situation? What if there’s a lens in the hole? What if there isn’t a flat board? What if you have two light sources? pattern at infinity pattern at focus superimposed patterns at focus f

5 2 nd peak separated by at least as much as distance to first minimum

6 Rayleigh Criterion plotted vs (  D/ ) Mathematica “FindRoot” command:  D/ = 1.21967 (using sin    ) Shape of curve involves a “Bessel function” (wait for some future Physics/Math class) Rayleigh Criterion

7 3 slits, equally spaced Back to 1-D slits, infinitely narrow (created with parameters so period = 2  )

8 4 slits, equally spaced Back to 1-D slits, infinitely narrow

9 5 slits, equally spaced Back to 1-D slits, infinitely narrow

10 10 slits, equally spaced Back to 1-D slits, infinitely narrow

11 20 slits, equally spaced Back to 1-D slits, infinitely narrow

12 100 slits, equally spaced Back to 1-D slits, infinitely narrow What have we learned?

13 The Grating Equation Where will maxima be?

14 Resolving Power N=100 Goes to zero at x=0.0628 = 2  /100 width = 1/N  separation of maxima

15 Resolving Power Red light vs. Green light HW 36-5: resolving power =  / = N  m

16 Demos Circular aperture Diffraction grating … with two lasers … with white light source

17 Reading Quiz What do we call diffraction off of the ions in a crystal? a. a.Bragg diffraction b. b.Bohr diffraction c. c.Compton diffraction d. d.Raman diffraction e. e.Thompson diffraction

18 X-ray Diffraction by Crystals Bragg equation http://commons.wikimedia.org/ wiki/File:Bragg_diffraction.png http://l-esperimento-piu-bello-della- fisica.bo.imm.cnr.it/english/history/figuredett2.html

19 Laue Patterns http://www.neutronoptics.com/laue.html

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