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Today Ch.36 (Diffraction) Next week, Dec.6, Review This week off. hours: Th: 2:00-3:15pm; F: 1:00-3:00pm Next week off. hours: Tu:2-3:15pm,W:1-3pm,Th:1-3pm Webct homework is due by Dec.12. Check your Midterm Exams Grades on elearning! Final Exam: (Ch.21-25, 27-29, 32,33,35,36).
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Today Ch.36 (Diffraction) Next week, Dec.6, Review This week off. hours: Th: 2:00-3:15pm; F: 1:00-3:00pm Next week off. hours: Tu:2-3:15pm,W:1-3pm,Th:1-3pm Webct homework is due by Dec.12. Check your Midterm Exams Grades on elearning! Final Exam: (Ch.21-25, 27-29, 32,33,35,36)
Lecture 24 (Ch. 36)Diffraction 1. Huygen’s principle, bending of the rays 2. Fraunhofer’s diffraction 3. Single slit 4.Two slits with a finite width 5. Resolution of the lens 6. Diffraction grating 7.Spectroscopy 8. x-ray diffraction 9. e diffraction
Augustin-Jean Fresnel 1788 – 1827 Joseph von Fraunhofer (1787 – 1826)
Single slit diffraction How to describe the real picture?
Intensity distribution 1st max R= 1st min: 1st max:
Narrowing of the first fringe with increase of the slit width
The photographs of four very small sources of light taken made with a circular aperture in front of the lens
Rayleigh’s criterion for resolution of two point objects: Two objects are barely resolved if the center of one diffraction pattern coincides with the first minimum if the other. John William Strutt, 3rd Baron Rayleigh 1842 – 1919 For a microscop
Hubble vs Arecibo Hubble: D=2.4m, Arecibo: D=300m,
Giant Magellan Telescope (2016) D1=8.5m, Deq=24m
With increase of N principal maxima becomes narrower and their amplitude grows as
Grating spectroscopy Spectrum of sunlight produced by a diffraction grating has dark absorption lines due to absorption of the corresponding wavelength by the solar atmosphere. It allows to find out a chemical composition of the solar atmosphere.
x-ray diffraction Wilhelm Röntgen (1845 – 1923) The 1st Nobel Prize,1901
Bragg condition An x-ray scattering pattern of DNA recorded by Rosalind Franklin led Watson and Crick to discovery of the DNA double helix structure
Electromagnetically induced transparency (EIT) Two undistinguishable absorption passes for light result in cancellation of absorption (transparency). An electron has the wave property. It may be in a superposition of states 1 and 1’. Monohromatic light with a frequency resonant either to one or another atomic transition is absorbed. Bichromatic light containing two resonant frequencies goes through. 1’ 1 O.K., Y.I.Khanin, JETP, 1986; O.K., P. Mandel, Phys. Rev. A. 1990. theory S.E. Harris, PRL, 1991. experiment
Electromagnetically induced transparency (EIT) 2 Two undistinguishable absorption passes for light result in cancellation of absorption (transparency). An electron has the wave property. It may be in a superposition of states 1 and 1’. A circular polarized light interacts only with 1-2 (or 1’-2) state and absorbed. A linear polarized light interacts with both 1-2 and 1-2’ states and goes through the medium without absorption. To make medium transparent for light with given circular polarization send through the medium simultaneously light with another circular polarization. The same is true for two beams of different frequencies When the frequency difference coincides with the frequency of the atomic transition 1-1’. 1’ 1 1’ 1 O.K., Y.I.Khanin, JETP, 1986; O.K., P. Mandel, Phys. Rev. A. 1990. theory S.E. Harris, PRL, 1991. experiment