03852nam 22004213 450 991049317760332120210901203520.01-62623-338-1(CKB)4560000000000777(MiAaPQ)EBC6577144(Au-PeEL)EBL6577144(OCoLC)1033617828(EXLCZ)99456000000000077720210901d2018 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAnatomy and Physiology of Speech and HearingNEW YORK :Thieme Medical Publishers, Incorporated,2018.©2018.1 online resource (654 pages)1-62623-337-3 Anatomy and Physiology of Speech and Hearing -- Title Page -- Copyright -- Dedication -- Contents -- Preface -- Acknowledgments -- Contributors -- Part I: Foundations of Human Anatomy and Physiology -- 1 Framework for Anatomy and Physiology -- 2 Composition of the Body: Cells, Tissues, Organs -- 3 Genetics -- 4 Embryology and Development of the Speech and Hearing Mechanism -- Part II: Foundations of the Nervous System -- 5 Neuroanatomy -- 6 Neurophysiology -- 7 Suprasegmental Motor Control -- 8 Peripheral Motor Control -- 9 Sensory Systems -- Part III: The Anatomy and Physiology of Speech and Language, Swallowing, Hearing, and Balance -- 10 Respiration -- 11 Phonation -- 12 Articulation and Resonance -- 13 Hearing -- 14 Swallowing -- 15 Balance -- Glossary -- Index.Anatomy and Physiology of Speech and Hearing Anatomy and Physiology of Speech and Hearing by Bernard Rousseau and Ryan C. Branski fulfills a growing need for a contemporary resource for students in speech and hearing science training programs. Extending well beyond traditional speech science and human anatomy, this publication encompasses the latest advances in the understanding of human physiology, basic cell functions, biological control systems, and coordinated body functions. Anatomy and Physiology of Speech and Hearing includes award-winning anatomic artwork from Thieme's Atlas of Anatomy, adding a rich visual basis to the clinical facets of speech, language, swallowing, hearing, and balance. The book begins with fundamentals of human anatomy and physiology such as embryology and development of speech and hearing mechanisms. The second section details nervous system functions including central and peripheral motor control. The physiology of respiration, phonation, articulation and resonance, hearing, swallowing, and balance are covered in the last six chapters. Key Features Highlighted key terms, review questions, learning objectives, and summaries enable instructors and students to consolidate information Textboxes offer meaningful examples of clinical disorders in a context conducive to applying newly learned concepts Over 400 high-quality, detailed anatomical illustrations maximize comprehension of anatomical and physiological aspects of speech, language, swallowing, hearing, balance and related functions Online access to Q&A content and anatomy figures provides labels on/off functionality for interactive study and review This core textbook is essential reading for undergraduate and graduate students in communication sciences and disorders. The connection between basic and clinical science enables students to maximize learning and applythis new knowledge during clinical placements and externships.Electronic books.612.7/8Rousseau Bernard847033Branski Ryan C847034MiAaPQMiAaPQMiAaPQBOOK9910493177603321Anatomy and Physiology of Speech and Hearing1892207UNINA05281nam 22006494a 450 991078456800332120230120004617.01-280-63358-197866106335860-08-045506-9(CKB)1000000000363760(EBL)269548(OCoLC)162575947(SSID)ssj0000159950(PQKBManifestationID)11151859(PQKBTitleCode)TC0000159950(PQKBWorkID)10182765(PQKB)10382793(MiAaPQ)EBC269548(Au-PeEL)EBL269548(CaPaEBR)ebr10138396(CaONFJC)MIL63358(EXLCZ)99100000000036376020050812d2006 uy 0engur|n|---|||||txtccrFundamentals of optical waveguides[electronic resource] /Katsunari Okamoto2nd ed.Amsterdam ;Boston Elsevierc20061 online resource (578 p.)Description based upon print version of record.1-4933-0174-8 0-12-525096-7 Includes bibliographical references and index.front cover; copyright; table of contents; front matter; Preface to the First Edition; Preface to the Second Edition; body; 1 Wave Theory of Optical Waveguides; 1.1. WAVEGUIDE STRUCTURE; 1.2. FORMATION OF GUIDED MODES; 1.3. MAXWELL'S EQUATIONS; 1.4. PROPAGATING POWER; Chapter 1 REFERENCES; 2 Planar Optical Waveguides; 2.1. SLAB WAVEGUIDES; 2.1.1. Derivation of Basic Equations; 2.1.2. Dispersion Equations for TE and TM Modes; 2.1.3. Computation of Propagation Constant; 2.1.4. Electric Field Distribution; 2.1.5. Dispersion Equation for TM Mode; 2.2. RECTANGULAR WAVEGUIDES2.2.1. Basic Equations2.2.2. Dispersion Equations for Expq and Eypq Modes; 2.2.3. Kumar's Method; 2.2.4. Effective Index Method; 2.3. RADIATION FIELD FROM WAVEGUIDE; 2.3.1. Fresnel and Fraunhofer Regions; 2.3.2. Radiation Pattern of Gaussian Beam; 2.4. MULTIMODE INTERFERENCE (MMI) DEVICE; Chapter 2 REFERENCES; 3 Optical Fibers; 3.1. BASIC EQUATIONS; 3.2. WAVE THEORY OF STEP-INDEX FIBERS; 3.2.1. TE Modes; 3.2.2. TM Modes; 3.2.3. Hybrid Modes; 3.3. OPTICAL POWER CARRIED BY EACH MODE; 3.3.1. TE Modes; 3.3.2. TM Modes; 3.3.3. Hybrid Modes; 3.4. LINEARLY POLARIZED (LP) MODES3.4.1. Unified Dispersion Equation for LP Modes3.4.2. Dispersion Characteristics of LP Modes; 3.4.3. Propagating Power of LP Modes; 3.5. FUNDAMENTAL HE11 MODE; 3.6. DISPERSION CHARACTERISTICS OF STEP-INDEX FIBERS; 3.6.1. Signal Distortion Caused by Group Velocity Dispersion; 3.6.2. Mechanisms Causing Dispersion; 3.6.3. Derivation of Delay-time Formula; 3.6.4. Chromatic Dispersion; 3.6.5. Zero-dispersion Wavelength; 3.7. WAVE THEORY OF GRADED-INDEX FIBERS; 3.7.1. Basic Equations and Mode Concepts in Graded- index Fibers; 3.7.2. Analysis of Graded-index Fibers by the WKB Method3.7.3. Dispersion Characteristics of Graded-index Fibers3.8. RELATION BETWEEN DISPERSION AND TRANSMISSION CAPACITY; 3.8.1. Multimode Fiber; 3.8.2. Single-mode Fiber; 3.9. BIREFRINGENT OPTICAL FIBERS; 3.9.1. Two Orthogonally-polarized Modes in Nominally Single-mode Fibers; 3.9.2. Derivation of Basic Equations; 3.9.3. Elliptical-core Fibers; 3.9.4. Modal Birefringence; 3.9.5. Polarization Mode Dispersion; 3.10. DISPERSION CONTROL IN SINGLE-MODE OPTICAL FIBERS; 3.10.1. Dispersion Compensating Fibers; 3.10.2. Dispersion-shifted Fibers; 3.10.3. Dispersion Flattened Fibers3.10.4. Broadly Dispersion Compensating Fibers3.11. PHOTONIC CRYSTAL FIBERS; Appendix 3A Vector wave equations in graded-index fibers; Appendix 3B Derivation of equation (3.219); Chapter 3 REFERENCES; 4 Coupled Mode Theory; 4.1. DERIVATION OF COUPLED MODE EQUATIONS BASED ON PERTURBATION THEORY; 4.2. CODIRECTIONAL COUPLERS; 4.3. CONTRADIRECTIONAL COUPLING IN CORRUGATED WAVEGUIDES; 4.3.1. Transmission and Reflection Characteristics in Uniform Gratings; 4.3.2. Phase-shift Grating; 4.4. DERIVATION OF COUPLING COEFFICIENTS; 4.4.1. Coupling Coefficients for Slab Waveguides4.4.2. Coupling Coefficients for Rectangular WaveguidesFundamentals of Optical Waveguides is an essential resource for any researcher, professional or student involved in optics and communications engineering. Any reader interested in designing or actively working with optical devices must have a firm grasp of the principles of lightwave propagation. Katsunari Okamoto has presented this difficult technology clearly and concisely with several illustrations and equations. Optical theory encompassed in this reference includes coupled mode theory, nonlinear optical effects, finite element method, beam propagation method, staircase concatenationOptical wave guidesIntegrated opticsOptical wave guides.Integrated optics.621.36/9Okamoto Katsunari1949-62890MiAaPQMiAaPQMiAaPQBOOK9910784568003321Fundamentals of optical waveguides187201UNINA