Proc.Diffraction of sound refers to the bending or spreading of sound waves as they encounter obstacles or pass through openings in barriers. Yao: Design Considerations for Acousto-Optic Devices. Roland: Acousto-optic properties of some chalcogenide crystals. Niizeki: Acousto-optic deflection materials and techniques. Pinnow: Guidelines for the selection of acousto-optic materials. Dixon: Photoelastic properties of selected materials and their relevance for applications to acoustic light modulators and scanners. Korpel: Measurement of light-sound interaction efficiencies in solids. Rowe: Some general properties of non-linear elements, Pt.I- General energy relations. Gordon: A review of acousto-optical deflection and modulation devices. Louisell: Coupled-Mode and Parametric Electronics (Wiley, New York 1960) Chap.5Į.I. Tien: Parametric amplification and frequency mixing in propagating circuits. Black: Modulation Theory ( Van Nostrand, New York 1953 ) p. Goldman: Frequency Analysis, Modulation and Noise ( McGraw-Hill, New York 1948 ) p. Adler: Interaction between light and sound. Tsai: Guided-wave acoustooptic Bragg modulators for wideband integrated optic communications and signal processing. Vanderlugt (Ed.): Special Section on Acousto-Optic Signal Processing., Proc. Chang: Acousto-optic devices and applications. deSouza: Acoustic transparencies for optical imaging and ultrasonic diffraction. Sonics Ultrasonics, Vancouver (1967) Paper 1–4 Hance: Optical imaging of the cross section of a microwave beam in rutile by Bragg diffraction of a laser beam. Tsai: Optical imaging of a complex ultrasonic field by diffraction of a laser beam.
Korpel: Visualization of the cross-section of a sound beam by Bragg diffraction of light. Gordon: Acoustic beam probing using optical techniques. Wilkinson: Conversion of light to sound by electrostrictive mixing in solids. Alpinen Direct observation of optically induced generation and amplification of sound. Robinson: The supersonic light control and its Application to television with special reference to the scophony television receiver. Okolocsanyi: The wave slot, an optical television system. Swietlicki: Acousto-optic conversion of TE and TM modes in a diffusive planar waveguide. Cohoon: A high resolution optical scatter using a travelling-wave acoustic lens. Dixon: Acoustic diffraction of light in anisotropic media. Cardona (ed.): Light Scattering in Solids I, 2nd ed., Topics Appl. Marcuse: Light Transmission Optics ( Van Nostrand, New York 1972 ) pp. Korpel: Acousto-Optics, Applied Solid-State Sci., Vol.3, ed. Bloembergen: Theory of stimulated Brillouin and Raman scattering. Phariseau: On the Diffraction of Light by Progressive Supersonic Waves. David: Scattering of light by weak supersonic radiation. Nath: The diffraction of light by high frequency sound waves: Pt.V, Proc. Nath: The diffraction of light by high frequency sound waves: Part IV, Proc. Nath: The diffraction of light by high frequency sound waves: Pt.III, Proc. Nath: The diffraction of light by high frequency sound waves: Pt.II, Proc. Nath: The diffraction of light by high frequency sound waves: Pt.I, Proc. Brillouin: Diffraction de la Lumière par des Ultra-sons, Actualités Scientifiques et Industrielles, No. Biquard: Optical properties of solids and liquids under ultrasonic vibrations. Sears: On the scattering of light by supersonic waves.
Bragg: The diffraction of short electromagnetic waves by a crystal. Bragg: Die Reflexion von Röntgenstrahlen an Kristallen. Duane: The calculation of the X-ray diffraction power at points in a crystal. This is a Dover republication of work first published in 1894 Lord Rayleigh: The Theory of Sound, Vol.2, 2nd ed. Korpel: Acousto-optics - a review of fundamentals, Proc. Cook: Unified approach to ultrasonic light diffraction, IEEE Trans. Winslow: Interaction of light and microwave sound, Proc. Willard: Criteria for normal and abnormal ultrasonic light diffraction effects, J. Fowles: Introduction to Modern Optics (Holt, Rinehart and Winston, New York 1968 ) p.