Description |
1 online resource (710 pages) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Series |
Interface Transmission Tutorial Book |
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Interface transmission tutorial book series.
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Note |
Print version record. |
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 |
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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 |
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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 |
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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 |
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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' |
Note |
4.3.7 All eigenvalues and eigenfunctions from the full response function. |
Subject |
Photonics.
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Photonique.
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Photonics
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Genre/Form |
Electronic book.
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Added Author |
Dobrzyski, Leonard.
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Akjouj, Abdellatif.
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El Boudouti, El Houssaine.
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Leveque, Gaetan.
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Al-Wahsh, Housni.
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Pennec, Yan.
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Ghouila-Houri, Cecile.
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Talbi, Abdelkrim.
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Djafari-Rouhani, Bahram.
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Jin, Yabin.
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Other Form: |
Print version: Dobrzyski, Leonard Photonics San Diego : Elsevier,c2020 9780128193884 |
ISBN |
0128193891 |
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9780128193891 (electronic bk.) |
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9780128193884 |
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0128193883 |
Standard No. |
AU@ 000068691797 |
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AU@ 000068805368 |
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