| ka2012 |
2023-11-19 12:22 |
Basics of OPTICS OF MULTILAYER SYSTEMS
Basics of OPTICS OF MULTILAYER SYSTEMS aL&���egM*
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Contents �hwe6�@T.#
Preface……………………………………………………………………….………..……….4 ._�]P�z��6
Chapter 1 \�Q}Y��"oq
SPECTRAL CHARACTERISTICS OF MULTILAYER COATINGS: 'J�dK0�w�#
THEORY……………………………………………………………………………………….5 K7JZUS`C�!
1.1 Electromagnetic field in layered media; spectral characteristics of layered media…5 �Za���Y|v-
1.1.1 Layered medium electromagnetic field equations………………………………...5 R��|)l�^~x
1.1.2 Amplitude transmittance and reflectance of the layered medium……………….12 �p>?(u�G�V
1.1.3 The Fresnel formulas ……………………………………………………………18 ydO��G8�EI
1.1.4 Other ways of determining amplitude transmittance and reflectance of the )_j(NX-C�:
layered medium…………………………………………………………………..19 `.�~S/$a.&
1.1.5 Transmittance, reflectance and absorptance …………………………………….20 �s��92ol0`
1.2 Principal recurrent methods for calculating layered media spectral coefficients…22 �3�p HI+a�
1.2.1 Matrix calculating method ………………………………………………………22 1@'I eyw�g
1.2.2 Description of optical coating and presentation of calculation results…………..28 ~Y~��M�}�4
1.2.3 Recurrent formulas for the amplitude transmittance and reflectance……………30 Y{�dX�[^[�
1.2.4 Approximate formulas…………………………………………………………...33 hTEb�?1CXU
1.2.5 Other recurrent methods…………………………………………………………34 �&L�zd*�}7
1.2.6 The admittance phase plane……………………………………………………...38 "eTALRL'o�
1.3 Some common properties of multilayer coatings…………………………………….46 %�4M,f.�[e
1.3.1 The relation between the characteristic matrix and spectral coefficients of a ;?iu���@h�
multilayer coating ……………………………………………………………….47 }��L|B�@fW
1.3.2 Relations between spectral characteristics for the direct and reverse waves ……51 9\Ff��� z&
1.3.3 Transmittance and reflectance of the combination of two multilayer T�<Y*();Zo
subsystems ……………………………………………………………………....54 W�-r�^M�E�
1.4 The multilayer coatings optical properties: impact of variations in the layer 5-f�ASN.Lx
parameters……………………………………………………………………………...58 5o�4K��V?"
1.4.1 Spectral coefficients derivatives with respect to layer parameters …...………… IOx���tu�R
1.4.2 Impact of the layer parameter errors on the multilayer coatings spectral 29��G���el
coefficients: probability assessment method ……………………….…………...63 `q^qe>���'
1.4.3 Multilayer coating spectral properties: influence of separate layer parameter g.�62XZF@�
variations ………………………………………………………………………...66 �58HAl_8W
1.5 Multilayer periodic systems. Quarter-wave dielectric mirrors……………………..68 K�f�VsnL�_
1.5.1 Characteristic matrix of a periodic multilayer system …………………………..69 �hfb�u+w):
1.5.2 Quarter-wave mirror properties at the central wavelength ……………………...72 D{7^y>8_Y-
1.5.3 Width of the quarter-wave mirror high-reflectance zones ………………………76 {y�5��� �L
1.5.4 Principal properties of a quarter-wave dielectric mirror in the proximity to the !9r%�d8!z�
central wavelength ………………………………………………………………80 �"R�)�n1,0
1.5.5 Dielectric mirrors on a metal substrate ………………………………………….84 y?r`[{L(lA
1.6 Approximate formulas for dielectric narrow bandpass filters ……………………..88 xuqG)HthRS
1.6.1 Common expressions for spectral coefficients of filter-type systems near central �KCZ<�#ca^
wavelength ………………………………………………………………………88 MK�
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1.6.2 Research of narrow bandpass filters with a half-wave central layer ……………92 �b[�:m[�^�
Chapter 2 dJrUc�ZB�r
SYNTHESIS OF MULTILAYER OPTICAL COATINGS ……………………...97 �rZB=�'(�?
2.1 Synthesis methods based on merit function optimization …………………………...98 r~Q�E}00@^
2.1.1 Merit function selection …………………………………………………………98 ^�%Y-~�yB-
2.1.2 Merit function optimization ……………………………………………………101 i��E;F=�Rb
2.1.3 General pattern of the synthesis and the problem of the starting design choice .108 8��62r�o�l
2.2 Synthesis method based on the needle-like variations of the refractive index ……114 4|cRYZj�5�
2.2.1 Needle-like variations of the refractive index ………………………………….115 ��`��w�j'�
2.2.2 The principal idea of the method ………………………………………………119 AH'3
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2.2.3 Description of the method ……………………………………………………...124 T�T3G��GHR
Bibliography …...………………………………………….……………….………..……130
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