Introduction to Geometrical Optics & Prisms

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15/03/2018 Introduction to Geometrical Optics & Prisms Optical Engineering Prof. Elias N. Glytsis School of Electrical & Computer Engineering National Technical University of Athens

Geometrical Optics Quantum Optics Wave (Physical) Optics Electromagnetic Optics Geometrical Optics lim {Wave Optics} = Geometrical Optics λ 0 Originally from the Book: B. E. A. Saleh and M. C. Teich, Fundamentals of Photonics, 2 nd Ed., J. Wiley 2007 2

Huygens's Principle (1678AD) R. A. Serway and J. W. Jewett, Physics for Scientists & Engineers, 6 th Ed.,Thomson_Brooks/Cole, 2004 3

Huygens's Principle and Law of Reflection AB is a plane wave front of incident light. The wave at A sends out a wavelet centered on A toward D. The wave at B sends out a wavelet centered on B toward C. AD = BC = c Δt θ 1 = θ 1 Angle of Incidence = Angle of Reflection R. A. Serway and J. W. Jewett, Physics for Scientists & Engineers, 6 th Ed.,Thomson_Brooks/Cole, 2004 4

Huygens's Principle and Law of Refraction Ray 1 strikes the surface and at a time interval Δt later, Ray 2 strikes the surface. During this time interval, the wave at A sends out a wavelet, centered at A, toward D. From triangles ABC and ADC, we find R. A. Serway and J. W. Jewett, Physics for Scientists & Engineers, 6 th Ed.,Thomson_Brooks/Cole, 2004 5

Fermat's Principle (1662AD) A ray of light in going from point S to point P will travel an optical path (OPL) that minimizes the OPL. That is, it is stationary with respect to variations in the OPL. Law of Reflection (Hero - least distance) Law of Refraction (Fermat - least time) 6

Fermat's Principle (1662AD) B Fermat s Principle ds z A x y Euler-Lagrange Equations Ray-Path Equation (Eikonal) 7

Optical Path Length (OPL) n = 1 n > 1 L L z λ 0 A ds B λ = λ 0 n y x R. A. Serway and J. W. Jewett, Physics for Scientists & Engineers, 6 th Ed.,Thomson_Brooks/Cole, 2004 8

Fermat's Principle and Law of Reflection A a α 1 α2 B b A O Β x d-x d 9

Fermat's Principle and Law of Refraction A n 1 α 1 a d-x A O Β x d b β 1 B n 2 10

Deviation Angle of a Dispersing Prism σ δ α 1 δ 1 δ 2 β β 1 2 α 2 n 0 n p n 0 11

Refractive Index Measurement of Liquids R. H. French et al., Proc. SPIE 5377, pp. 1689-1694 (2004) 12

Refractive Index Measurement of Water R. H. French et al., Proc. SPIE 5377, pp. 1689-1694 (2004) 13

Normal Dispersion 14

Typical Dispersion The index of refraction vs. wavelength http://1.bp.blogspot.com/-kchwnw81di4/ur_qgf5b9di/aaaaaaaacng/h5oijsp_gts/s640/figure+3.png 15

Normal Dispersion- Cauchy Formula Material A B (μm 2 ) Fused silica 1.4580 0.00354 Borosilicate glass BK7 1.5046 0.00420 Hard crown glass K5 1.5220 0.00459 Barium crown glass BaK4 1.5690 0.00531 Barium flint glass BaF10 1.6700 0.00743 Dense flint glass SF10 1.7280 0.01342 16

Normal Dispersion - Sellmeier Formula Table of coefficients of Sellmeier equation Material B 1 B 2 B 3 C 1 C 2 C 3 borosilicate crow n glass (known as BK7) 1.03961212 0.231792344 1.01046945 6.00069867 10 3 µm 2 2.00179144 10 2 µm 2 1.03560653 10 2 µm 2 sapphire (for ordinary wave) 1.43134930 0.65054713 5.3414021 5.2799261 10 3 µ m 2 1.42382647 10 2 µm 2 3.25017834 10 2 µm 2 sapphire (for extraordinary wave) 1.5039759 0.55069141 6.5927379 5.48041129 10 3 µm 2 1.47994281 10 2 µm 2 4.0289514 10 2 µm 2 fused silica 0.696166300 0.407942600 0.897479400 4.67914826 10 3 µm 2 1.35120631 10 2 µm 2 97.9340025 µm 2 17

Normal Dispersion Comparison of Cauchy and Sellmeier Formulas For BK7 Glass 18

Dispersive Prism Dispersive Power Freespace Wavelength, λ 0 (nm) Characterization Crown Glass Refractive Index 486.1 F, blue (H dark line) n F = 1.5286 589.2 D, yellow (Na dark line) n D = 1.5230 656.3 C, red (H dark line) n C = 1.5205 19

Reflective Prisms Penta prism can deviate an incident beam without inverting or reversing to 90. The deviation angle of 90 is independent of any rotation of the prism about an axis parallel to the line of intersection of the two reflecting faces. It is commonly used in Plumb Level, Surveying, Alignment, Rangefinding and Optical Tooling. Beamsplitting Penta prism: By adding a wedge and with partial refractive coating on surfaces S1, it can be used as a beamsplitter. It is often used in Plumb Level, Surveying, Alignment, Rangefinding and Optical Tooling. https://www.edmundoptics.eu/resources/application-notes/optics/introduction-to-optical-prisms/ 20

Reflective Prisms Right angle prism is deviating or deflecting a beam of light with 90 or 180. It is often used in telescope, periscope and other optical system. Dove prism has two applications. The main application is used as a rotator. It can rotate an image but without deviating the beam. And when the prism is rotated about the input parallel ray through some angle, the image rotates through twice that angle. It is very important that the application must be used with parallel or collimated beam and the large square reflective surface should be kept very clean. Another application is used as a retroreflector. For this application it perform as a right-angle prism. 21

Reflective Prisms Roof prism (Amici) is combined with a right angle prism and a totally internally reflecting roof and they are attached by them largest square surfaces. It can invert and reverse an image, also, deflect the image 90. Therefore, it is often used in terrestrial telescopes, viewing systems and rangefinders. Corner Cube Prism: It has three mutually perpendicular surfaces and a hypotenuse face. Light entering through the hypotenuse is reflected by each of the three surfaces in turn and will emerge through the hypotenuse face parallel to the entering beam regardless of the orientation the incident beam. For its special performance, it is often used to the distance measurement, optical signal process and laser interferometer. http://www.toptica.com/fileadmin/editors_english/03_products/09_wavemeters_photonicals/02_photonicals/ana morphic-prism-pair.jpg Anamorphic Prisms: These two prisms can expand or contract the beam in one direction without any changes in the other direction. By adjusting the angles among the incident beam and two prisms, the shape of the beam can be changed. It is very easy to turn elliptical bean into circular beam. 22

Reflective Prisms The Penta Prism will deviate the beam by 90 without affecting the orientation of the image. It has the valuable property of being a constant-deviation prism, in that it deviates the line-of-sight by 90 regardless of its orientation to the line-of-sight. Note that two of its surfaces must be silvered. These prisms are often used as end reflectors in small rangefinders The Rhomboid Prism displaces the line of sight without producing any angular deviation or changes in the orientation of the image. 23

Reflective Prisms Erecting Prisms Porro-Abbe Prism W. J. Smith, Modern Optical Engineering, 3 rd Ed. McGraw-Hill, 2000 24

Right angle prism Oriented to deviate light by 180 degrees Porro Prism 25

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