| ka2012 |
2023-11-19 12:22 |
Basics of OPTICS OF MULTILAYER SYSTEMS
Basics of OPTICS OF MULTILAYER SYSTEMS *vBcT�.�|,
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Contents (x.K%QC)
Preface……………………………………………………………………….………..……….4 FpW{=4�y�k
Chapter 1 �!(Sa�E'��
SPECTRAL CHARACTERISTICS OF MULTILAYER COATINGS: 3$HFHUMQsk
THEORY……………………………………………………………………………………….5 .'��.|s�?s
1.1 Electromagnetic field in layered media; spectral characteristics of layered media…5 rxa8X wo�8
1.1.1 Layered medium electromagnetic field equations………………………………...5 ?�F�M�H�K\
1.1.2 Amplitude transmittance and reflectance of the layered medium……………….12 y�R�vq3>mU
1.1.3 The Fresnel formulas ……………………………………………………………18 �W&bh&KzCW
1.1.4 Other ways of determining amplitude transmittance and reflectance of the ||L�q�x#e=
layered medium…………………………………………………………………..19 4qy�L' \d[
1.1.5 Transmittance, reflectance and absorptance …………………………………….20 +;cw<9�%0
1.2 Principal recurrent methods for calculating layered media spectral coefficients…22 ��kv�(�N/G
1.2.1 Matrix calculating method ………………………………………………………22 "F�%cn�@l�
1.2.2 Description of optical coating and presentation of calculation results…………..28 ?'h�@!F%R'
1.2.3 Recurrent formulas for the amplitude transmittance and reflectance……………30 |�n6nRE wW
1.2.4 Approximate formulas…………………………………………………………...33 =��BX<;vU�
1.2.5 Other recurrent methods…………………………………………………………34 ~��"=nt@M]
1.2.6 The admittance phase plane……………………………………………………...38 25YJ�H1�x�
1.3 Some common properties of multilayer coatings…………………………………….46 �1�YM04*H�
1.3.1 The relation between the characteristic matrix and spectral coefficients of a u[d8)+V�X
multilayer coating ……………………………………………………………….47 X�0U{9�zP�
1.3.2 Relations between spectral characteristics for the direct and reverse waves ……51 �vZXyc���*
1.3.3 Transmittance and reflectance of the combination of two multilayer ]F�f&�zBJ�
subsystems ……………………………………………………………………....54 `+*�
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1.4 The multilayer coatings optical properties: impact of variations in the layer �IS'=%qhC`
parameters……………………………………………………………………………...58 %?�RX}37K�
1.4.1 Spectral coefficients derivatives with respect to layer parameters …...………… l|N�1u��=Z
1.4.2 Impact of the layer parameter errors on the multilayer coatings spectral K�o -<4w�u
coefficients: probability assessment method ……………………….…………...63 C=�h���E@�
1.4.3 Multilayer coating spectral properties: influence of separate layer parameter vQIoj�31��
variations ………………………………………………………………………...66 Z,u:g� c+*
1.5 Multilayer periodic systems. Quarter-wave dielectric mirrors……………………..68 -4hX���-��
1.5.1 Characteristic matrix of a periodic multilayer system …………………………..69 @+xkd�(RfN
1.5.2 Quarter-wave mirror properties at the central wavelength ……………………...72 x%x[�5.CT
1.5.3 Width of the quarter-wave mirror high-reflectance zones ………………………76 u4.�-AY� {
1.5.4 Principal properties of a quarter-wave dielectric mirror in the proximity to the J@�yy2AZnO
central wavelength ………………………………………………………………80 wF38c]r`\<
1.5.5 Dielectric mirrors on a metal substrate ………………………………………….84 0V`/oaW;�
1.6 Approximate formulas for dielectric narrow bandpass filters ……………………..88 ^QFjBQ-Hai
1.6.1 Common expressions for spectral coefficients of filter-type systems near central NTV�G�'�3o
wavelength ………………………………………………………………………88 1~���5={eI
1.6.2 Research of narrow bandpass filters with a half-wave central layer ……………92 �~yO�.R)4v
Chapter 2 =�<�3�3( �
SYNTHESIS OF MULTILAYER OPTICAL COATINGS ……………………...97 �(6JD<pBm
2.1 Synthesis methods based on merit function optimization …………………………...98 r}vI��#�;&
2.1.1 Merit function selection …………………………………………………………98 WJ�J!No�P
2.1.2 Merit function optimization ……………………………………………………101 $9ON����3>
2.1.3 General pattern of the synthesis and the problem of the starting design choice .108 *M K�Vm)Iv
2.2 Synthesis method based on the needle-like variations of the refractive index ……114 x$M[/�ID�0
2.2.1 Needle-like variations of the refractive index ………………………………….115 �XPX{c|]>.
2.2.2 The principal idea of the method ………………………………………………119 �P7@�q�v�g
2.2.3 Description of the method ……………………………………………………...124 'VF���9j\a
Bibliography …...………………………………………….……………….………..……130
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