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E-BOOK
Title Photonics [electronic resource] / Leonard Dobrzyński [and more].
Imprint San Diego : Elsevier, 2020.

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 Internet  Electronic Book    AVAILABLE
Description 1 online resource (710 p.)
Series Interface Transmission Tutorial Book.
Interface transmission tutorial book series.
Note Description based upon print version of record.
4.3.7 All eigenvalues and eigenfunctions from the full response function.
Available only to authorized UTEP users.
Subject Photonics.
Contents Front Cover -- Photonics -- Copyright -- Contents -- Preface -- Acknowledgments -- Part I Photonic paths -- 1 Open loop -- 1.1 Introduction -- 1.2 Infinite open loop -- 1.3 Free end semiinfinite open loop -- 1.4 Finite open loop -- 1.4.1 Matrix -- 1.4.2 Determinant -- 1.4.3 State definition -- 1.4.4 State phase shift -- 1.4.5 Eigenvalues and interface eigenvectors -- 1.4.6 Response function -- 1.4.7 Complete eigenfunctions -- 1.4.8 Resonant and forced responses -- 1.4.9 Fixed end open loop -- 1.4.10 Breaking translational invariance -- 1.5 Perspectives -- References -- 2 Closed loop.
2.1 Introduction -- 2.2 Closing an open loop -- 2.3 Eigenvalues and eigenfunctions -- 2.4 Response function -- 2.5 Two simultaneous identical responses -- 2.6 Activation of the two states of closed loops -- References -- 3 Path states -- 3.1 Introduction -- 3.2 Path state properties -- 3.3 State theorems -- 3.3.1 State number conservation theorem -- 3.3.2 Confined state theorem -- 3.3.3 Bound in continuum state theorem -- 3.3.4 State activation theorems -- 3.3.4.1 Two state active points -- 3.3.4.2 One state active point and one system deformation point -- 3.3.5 Application to path states.
3.4 General eigenfunction rules -- 3.4.1 Rule 1 -- 3.4.2 Rule 2 -- 3.5 Robust zeros and eigenvalues -- 3.5.1 Free end open loop -- 3.5.2 Fixed end open loop -- 3.5.3 Closed loop -- 3.5.3.1 For the first degenerate state -- 3.5.3.2 For the second degenerate state -- 3.5.4 Infinite open loop -- 3.5.4.1 For the first degenerate state -- 3.5.4.2 For the second degenerate state -- 3.6 Path state construction -- 3.7 Some perspectives -- Acknowledgments -- References -- 4 Open loop examples -- 4.1 Introduction -- 4.2 T network -- 4.2.1 Path states by inspection.
4.2.2 The interface response inverse matrix -- 4.2.3 All eigenvalues from the state phase shift -- 4.2.4 Complete response function -- 4.2.4.1 x and x' in the same wire L -- 4.2.4.2 x and x' in the same wire L' -- 4.2.4.3 x in the wire L and x' in the wire L' -- 4.2.4.4 x in one wire L and x' in the other wire L -- 4.2.5 All eigenvalues and eigenfunctions from the response function -- 4.2.5.1 The ground state -- 4.2.5.2 For C=0 -- 4.2.5.3 For 2SC'+S'C= 0 -- 4.2.6 A possible application: a path bifurcation -- 4.3 Asymmetric cross -- 4.3.1 Path states by inspection.
4.3.2 The interface response inverse matrix -- 4.3.3 All eigenvalues from the state phase shift -- 4.3.4 All eigenvalues and interface space eigenvectors -- 4.3.4.1 The ground state -- 4.3.4.2 For C=0 -- 4.3.4.3 For C'=0 -- 4.3.4.4 For C = C'=0 -- 4.3.4.5 For C = ±C'0 -- 4.3.5 The interface response matrix -- 4.3.6 The complete response functions -- 4.3.6.1 When x and x' are in the same wire L -- 4.3.6.2 When x and x' are in the same wire L' -- 4.3.6.3 When x is in the wire L and x' in the other wire L -- 4.3.6.4 When x is in one wire L and x' in one wire L'
Other Author Dobrzynski, Léonard.
Akjouj, Abdellatif.
El Boudouti, El Houssaine.
Leveque, Gaetan.
Al-Wahsh, Housni.
Pennec, Yan.
Ghouila-Houri, Cecile.
Talbi, Abdelkrim.
Djafari-Rouhani, Bahram.
Jin, Yabin.
Other Title Print version: Dobrzyński, Leonard Photonics San Diego : Elsevier,c2020 9780128193884.