3. ACT: Double slit review θ L Which condition gives destructive interference? 1) dsin( ) = m 2) dsin( ) = (m+1/2) m = 0, 1, 2 dsin( ) θ y
4. Multiple Slits: (Diffraction Grating – N slits with spacing d) θ L Assume screen is very far away (L>>d): Path length difference 1-2 = d sin Path length difference 1-3 = 2d sin Path length difference 1-4 = 3d sin Constructive interference for all paths when dsin( ) = m m = 0, 1, 2 θ 1 2 3 4
5. Multiple Slits: (Diffraction Grating – N slits with spacing d) θ L Assume screen is very far away (L>>d): m = 0, 1, 2 Holds for arbitrary N Constructive: dsin( ) = m Same condition as Young’s double slit! θ 1 2 3 4
6. θ L Preflight 21.1 All 3 rays are interfering constructively at the point shown. If the intensity from ray 1 is I 0 , what is the combined intensity of all 3 rays? 1) I 0 2) 3 I 0 3) 9 I 0 θ 1 2 3
7. θ L ACT/Preflight 21.2 When rays 1 and 2 are interfering destructively, is the intensity from the three rays a minimum? 1) Yes 2) No θ 1 2 3
9. Multiple Slit Interference (Diffraction Grating) Region between maxima gets suppressed more and more as no. of slits increases – bright fringes become narrower and brighter. Peak location depends on wavelength! For many slits, maxima are still at 10 slits (N=10) intensity 0 2 slits (N=2) intensity 0
10. X-Ray Diffraction: A technique to study crystal structure 1 st maximum will be at 10 0 Crystal solid such as sodium Measure , determine d Constructive interference: in NaCl For =0.017nm X-ray d θ θ
11. Single slit interference? Monochromatic light travels through a screen with opening This is not what is actually seen! Bright spot Shadow
12. Diffraction/Huygens’ principle Huygens: Every point on a wave front acts as a source of tiny wavelets that move forward. Light waves originating at different points within opening travel different distances to wall, and can interfere! We will see maxima and minima on the wall! • • • • •
14. Single Slit Diffraction W Rays 2 and 2 also start w/2 apart and have the same path length difference. 1 st minimum at sin = /w Under this condition, every ray originating in top half of slit interferes destructively with the corresponding ray originating in bottom half. 1 1 2 2 When rays 1 and 1 interfere destructively.
15. Single Slit Diffraction w Rays 2 and 2 also start w/4 apart and have the same path length difference. 2 nd minimum at sin = 2 /w Under this condition, every ray originating in top quarter of slit interferes destructively with the corresponding ray originating in second quarter. 1 1 2 2 When rays 1 and 1 will interfere destructively .
16. Single Slit Diffraction Summary Condition for quarters of slit to destructively interfere Condition for halves of slit to destructively interfere Condition for sixths of slit to destructively interfere THIS FORMULA LOCATES MINIMA !! Narrower slit => broader pattern All together… Note: interference only occurs when w > (m = 1, 2, 3, …)
17. ACTS/Preflights 21.4, 21.5 A laser is shined onto a screen through a very small hole. If you make the hole even smaller, the spot on the screen will get: (1) Larger (2) Smaller Which drawing correctly depicts the pattern of light on the screen? (1) (2) (3) (4)
18. Diffraction from Circular Aperture Maxima and minima will be a series of bright and dark rings on screen Central maximum First diffraction minimum is at 1 st diffraction minimum Diameter D light
20. These objects are just resolved Two objects are just resolved when the maximum of one is at the minimum of the other.
21. Resolving Power To see two objects distinctly, need objects > min min objects Improve resolution by increasing objects or decreasing min objects is angle between objects and aperture: objects ≈ tan (d/y) sin min ≈ min = 1.22 /D min is minimum angular separation that aperture can resolve: D d y
22. ACT: Resolving Power How does the maximum resolving power of your eye change when the brightness of the room is decreased. 1) Increases 2) Constant 3) Decreases
23.
Hinweis der Redaktion
Here do demo using diffraction grating for red and green laser
Mention that this is used by solid state physicists to determine lattice spacing in crystals
demo 752; 2 point sources and different size slits