Physics Sirohi I n t r o d u c t i o n t o O P T I C A L M E T R O L O G Y I “A good book for students and professionals to learn both basic and n practical aspects of optical metrology.” t —Mitsuo Takeda, Center for Optical Research and Education, Utsunomiya r University, Japan o d “The theory and practice of optical metrology is equally weighted in this u book, providing an ideal combination for the instructor, student, and researcher.” c t —Ramen Bahuguna, San Jose State University, California, USA i o “The author’s way of writing/explaining is very well adapted to students and I n t r o d u c t i o n t o n practical-thinking persons. The didactics show the long experience of the author.” t —W. Osten, University of Stuttgart, Germany o OOPPTTIICCAALL MMEETTRROOLLOOGGYY Introduction to Optical Metrology examines the theory and practice of O various measurement methodologies utilizing the wave nature of light. The P book begins by introducing the subject of optics, and then addresses the T propagation of laser beams through free space and optical systems. After explaining how a Gaussian beam propagates, how to set up a collimator I to get a collimated beam for experimentation, and how to detect and C record optical signals, the text: A L • Discusses interferometry, speckle metrology, moiré phenomenon, photoelasticity, and microscopy M • Describes the different principles used to measure the refractive indices of solids, liquids, and gases E • Presents methods for measuring curvature, focal length, angle, T thickness, velocity, pressure, and length R • Details techniques for optical testing as well as for making fiber optic- and MEMS-based measurements O • Depicts a wave propagating in the positive z-direction by L ei(ωt – kz), as opposed to ei(kz – ωt) O Featuring exercise problems at the end of each chapter, Introduction to G Optical Metrology provides an applied understanding of essential optical Y measurement concepts, techniques, and procedures. K23100 ISBN: 978-1-4822-3610-1 90000 Rajpal S. Sirohi 9 781482236101 I n t r o d u c t i o n t o OPTICAL METROLOGY Optical Sciences and Applications of Light Series Editor James C. Wyant University of Arizona Introduction to Optical Metrology, Rajpal S. Sirohi Charged Particle Optics Theory: An Introduction, Timothy R. Groves Nonlinear Optics: Principles and Applications, Karsten Rottwitt and Peter Tidemand-Lichtenberg Photonics Modelling and Design, Slawomir Sujecki Numerical Methods in Photonics, Andrei V. Lavrinenko, Jesper Lægsgaard, Niels Gregersen, Frank Schmidt, and Thomas Søndergaard Please visit our website www.crcpress.com for a full list of titles I n t r o d u c t i o n t o OPTICAL METROLOGY Rajpal S. 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Visit the Taylor & Francis Web site at http://www.taylorandfrancis.com and the CRC Press Web site at http://www.crcpress.com Dedication to the Almighty form that transcends all of us Contents Series Preface ..........................................................................................................xix Preface.....................................................................................................................xxi Acknowledgments ................................................................................................xxiii Author ....................................................................................................................xxv Chapter 1 Introduction to Optics ..........................................................................1 1.1 Introduction .............................................................................1 1.2 Law of Reflection ....................................................................2 1.3 Law of Refraction ....................................................................2 1.4 Interference .............................................................................3 1.5 Diffraction ...............................................................................6 1.5.1 Propagation of a Monochromatic Wave ...................7 1.5.2 Kirchhoff Theory of Diffraction ..............................7 1.5.3 Small Angle Approximation ....................................9 1.5.4 Fresnel Approximation ...........................................10 1.5.5 Fraunhofer Approximation .....................................11 1.6 Polarization ...........................................................................11 1.6.1 Polarization Ellipse ................................................12 1.6.2 Representation of Polarization ...............................12 1.6.2.1 Jones Vector ..........................................12 1.6.2.2 Stokes Vector .........................................15 1.7 Fresnel Equations ..................................................................18 1.8 Thin Film Optics ...................................................................19 1.9 Optical Components ..............................................................23 1.9.1 Reflective Components ...........................................23 1.9.1.1 Mirror ....................................................24 1.9.2 Refractive Components ..........................................24 1.9.2.1 Refraction at Dielectric Interface ..........24 1.9.3 Diffractive Components .........................................26 1.10 Refraction at Curved Interface ..............................................27 1.10.1 Lenses .....................................................................27 1.11 Paraxial Optics ......................................................................29 1.11.1 Translation Matrix ..................................................30 1.11.2 Refraction Matrix ...................................................30 1.11.2.1 Plane Dielectric Interface ......................30 1.11.2.2 Spherical Dielectric Interface ...............31 1.11.3 Matrix for a Thin Lens ...........................................32 Problems .............................................................................................34 vii viii Contents Chapter 2 Laser Beams .......................................................................................37 2.1 Gaussian Beams ......................................................................37 2.2 The ABCD Law for Gaussian Beams .....................................40 2.2.1 Free Space Propagation ..............................................41 2.2.2 Propagation through a Lens .......................................42 2.2.2.1 Beam Waist Lies at Plane 1 at the Lens .....42 2.2.2.2 Beam Waist Lies in Front of the Lens ........44 2.2.2.3 Beam Focusing ...........................................46 2.3 Laser Collimator ......................................................................46 2.4 Vortex Beams ..........................................................................48 2.5 Bessel Beams ...........................................................................49 Problems .............................................................................................49 Chapter 3 Sources, Detectors, and Recording Media .........................................53 3.1 Introduction .............................................................................53 3.2 Radiometric Units ....................................................................53 3.3 Blackbody ................................................................................54 3.4 Light Sources ...........................................................................55 3.4.1 Incandescent Tungsten Lamps ...................................56 3.4.2 Tungsten-Halogen Lamps ...........................................56 3.4.3 Discharge Lamps ........................................................57 3.4.4 Coherent Sources ........................................................57 3.4.4.1 Helium-Neon Laser ....................................57 3.4.4.2 Argon Ion Laser ..........................................58 3.4.4.3 Nd:YAG/Nd:Glass Laser .............................59 3.4.4.4 Semiconductor Lasers .................................60 3.5 Detectors ..................................................................................61 3.5.1 Eye ..............................................................................61 3.5.2 Photoelectric Detectors ..............................................61 3.5.2.1 Photoemissive Detectors .............................62 3.5.2.2 Photomultipliers ..........................................63 3.5.2.3 Photoconductive Detectors .........................64 3.5.2.4 Photovoltaic Detectors ................................64 3.5.2.5 Avalanche Photodiode ................................66 3.5.3 Thermal Detectors ......................................................67 3.6 Recording Media .....................................................................67 3.6.1 Photographic/Holographic Plates and Films ..............67 3.6.2 Dichromated Gelatin ..................................................71 3.6.3 Photoresists .................................................................72 3.6.4 Photopolymers ............................................................73 3.6.5 Thermoplastics ...........................................................73 3.6.6 Photochromics ............................................................74 3.6.7 Ferroelectric Crystals .................................................74 Contents ix 3.7 Image Detectors .......................................................................75 3.7.1 Time Delay and Integration Mode of Operation ........78 3.8 Spatial Light Modulators .........................................................79 Problems .............................................................................................82 Chapter 4 Interferometry ....................................................................................85 4.1 Introduction .............................................................................85 4.2 Early History ...........................................................................85 4.2.1 Arrival of Laser ..........................................................86 4.3 Generation of Coherent Waves/Sources ..................................87 4.3.1 Wave Front Division: Double-Slit Experiment ..........88 4.3.2 Amplitude Division: Plane Parallel Plate ...................89 4.4 Fringe Patterns .........................................................................91 4.4.1 Interference between Two Plane Waves .....................91 4.4.2 Interference between Two Plane Waves of Slightly Different Frequencies ...............................92 4.5 Some More Interferometers .....................................................94 4.5.1 Two-Frequency Interferometer ...................................94 4.5.2 Doppler Interferometer ...............................................94 4.5.3 Cyclic Interferometer .................................................95 4.5.4 Shear Interferometer ...................................................95 4.6 Phase Shifting ..........................................................................96 4.6.1 Temporal Phase Shifting ............................................96 4.6.2 Spatial Phase Shifting ................................................97 Problems .............................................................................................98 Chapter 5 Techniques ........................................................................................101 5.1 Holography and Hologram Interferometry ............................101 5.1.1 Hologram Recording ................................................102 5.1.2 Reconstruction ..........................................................104 5.1.3 In-Line Holography ..................................................104 5.1.4 Off-Axis Holography ................................................105 5.1.4.1 Choice of Angle of the Reference Wave ...106 5.1.4.2 Choice of Intensity of the Reference Wave .........................................................106 5.1.5 Types of Holograms .................................................106 5.1.5.1 Diffraction Efficiency ...............................108 5.1.6 Experimental Arrangement ......................................108 5.1.6.1 Lasers ........................................................108 5.1.6.2 Beam Splitters ...........................................108 5.1.6.3 Beam Expanders .......................................109 5.1.6.4 Object Illumination Beam ........................109