Advanced Nutrition : Macronutrients, Second Edition /: Macronutrients, Second Edition. (2000)
- Record Type:
- Book
- Title:
- Advanced Nutrition : Macronutrients, Second Edition /: Macronutrients, Second Edition. (2000)
- Main Title:
- Advanced Nutrition : Macronutrients, Second Edition
- Further Information:
- Note: Carolyn D. Berdanier.
- Authors:
- Berdanier, Carolyn D
- Contents:
- Cover; Half title; Founding Editor; Title; Copyright; Preface; Contents; Chapter I General Properties; 1.1 Introduction; LI.I Types of diffracting periodic media; LJ.2 Brief overlook of grating theories; 1.1.3 The grating theory user guide; 1.1.4 The early years and the maturity of the differential theory of gratings; 1.2. General properties of electromagnetic field in periodic media; 1.2.1 Time-harmonic Maxwell equations; 1.2.2 Two fundamental polarizations; 1.2.3 Pseudoperiodicity of the field; 1.2.4 Fourier expansion of the field; 1.2.5 Rayleigh expansion; 1.2.6 Fraunhofer equation 1.2.7 Grating efficiency1.2.8 Energy-balance criterion; 1.2.9 Reciprocity; References; Chapter II: Basic Principles of the Differential Theory of Gratings; 11.1. Classical differential theory of gratings; II.1.l TE polarization; II.l.l.1 The boundary -- value problem; II.I.I.2 The shooting method for TE polarization; II.I.2 TM polarization; II.1.2.1 The boundary -- value problem; II.1.2.2 The shooting method for TM polarization; II.2. Numerical contamination; II.2.1 A simple example of sensitivity to initial conditions; II.2.2 Application to the grating problem; Reference Chapter III: Stacks of GratingsIII.I Reflection and transmission matrices of a grating; III.2 The transmission-matrix algorithm; III.3 Determination of the T matrix ofa grating; III.4 T matrix of a homogeneous layer; II1.5 Limitation of the T-matrix propagation algorithm; III.6 The S-matrix propagation algorithm; III.7Cover; Half title; Founding Editor; Title; Copyright; Preface; Contents; Chapter I General Properties; 1.1 Introduction; LI.I Types of diffracting periodic media; LJ.2 Brief overlook of grating theories; 1.1.3 The grating theory user guide; 1.1.4 The early years and the maturity of the differential theory of gratings; 1.2. General properties of electromagnetic field in periodic media; 1.2.1 Time-harmonic Maxwell equations; 1.2.2 Two fundamental polarizations; 1.2.3 Pseudoperiodicity of the field; 1.2.4 Fourier expansion of the field; 1.2.5 Rayleigh expansion; 1.2.6 Fraunhofer equation 1.2.7 Grating efficiency1.2.8 Energy-balance criterion; 1.2.9 Reciprocity; References; Chapter II: Basic Principles of the Differential Theory of Gratings; 11.1. Classical differential theory of gratings; II.1.l TE polarization; II.l.l.1 The boundary -- value problem; II.I.I.2 The shooting method for TE polarization; II.I.2 TM polarization; II.1.2.1 The boundary -- value problem; II.1.2.2 The shooting method for TM polarization; II.2. Numerical contamination; II.2.1 A simple example of sensitivity to initial conditions; II.2.2 Application to the grating problem; Reference Chapter III: Stacks of GratingsIII.I Reflection and transmission matrices of a grating; III.2 The transmission-matrix algorithm; III.3 Determination of the T matrix ofa grating; III.4 T matrix of a homogeneous layer; II1.5 Limitation of the T-matrix propagation algorithm; III.6 The S-matrix propagation algorithm; III.7 Remaining limitation of the differential method; References; Chapter IV: Fast Fourier Factorization (FFF) Method; IV.1 Truncated products: a simple example; IV.2 Exact propagation equations in a truncated Fourier basis for TM polarization; IV.2.1 Factorization rules IV.2.2 Derivation of the equations for TM polarizationIV.2.3 Discussion of the new equations; rV.2.4 Examples of convergence of the numerical results; IV.2.5 Calculation of Toeplitz matrices [c2] and [cs]; IV.3 Extension to conical diffraction; References; Chapter V: Maxwell Equations in Truncated Fourier Space; V.1 General, fast converging propagation equations in Fourier space; V.I.1 Relation between [5] and [EJ \; V.I.2 Relation between [B] and [Ii]; V.I.3 The set of differential cquations in Fouricr space; V.I.4 Extension of normal and tangent unit vectors outside the diffracting surface V .I.5 The particular case of classical gratings made of isotropic, nonmagnetic materialReference; Chapter VI: Rigorous Coupled-Wave (RCW) Method; VI.1 Original version of the RCW theory; VI.2 Heuristic convergence improvement in TM polarization; VI.3 Lamellar grating in conical diffraction; VI.4 Slanted grating used in conical diffraction; VI.5 Extension of the RCW theory to arbitrary profiles; VI.5.l Convergence rate for a sinusoidal aluminum grating; VI.5.I.1 TE convergence; VI.5.I.2 TM convergence; VI.5.2 Near-field maps; VI.5.2.1 TM field maps; VI.5.2.2 TE field maps … (more)
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 2000
- Extent:
- 1 online resource
- Subjects:
- 612.3/9
Nutrition
Nutrition
Electronic books - Languages:
- English
- ISBNs:
- 9781482275209
1482275201 - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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