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光電工程系
DEPARTMENT OF ELECTRO-OPTICAL ENGINEERING NATIONAL TAIPEI UNIVERSITY OF TECHNOLOGY
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光學薄膜實驗室

 

國立台北科技大學光電工程系所
光學薄膜實驗室 (Optical Thin Film Lab)
實驗室網頁:
 
實驗室指導教授: 任貽均 教授
實驗室位置: 億光1014、1027室
實驗室電話:(02)27712171 轉 4689
 
實驗室簡介
光學薄膜實驗室成立於2002年09月,研究方向:光學特性量測、光學薄膜之設計與製作、電磁理論
 
實驗室全景
 
實驗室儀器設備



熱蒸鍍機(Thermal Evaporator)
光學薄膜製作(Optical Thin Film Design)



全反射受挫量測儀(Attenuated Total Reflectrometer)
表面電漿量測(Surface Plasma Measurement)

貴重儀器服務項目:可外借(收費標準與其他詳情請點)

光譜儀(Spectrometer)
穿透式、可見光(Transmission,UV、 VIS wavelength)

研究領域
1.光學薄膜設計理論:
(1)Antireflection coatings
(2)Neutral mirrors and beam splitters
(3)Multilayer high-reflectance coatings
(4)Edge filters
(5)Band-pass filters
(6)Tilter coatings

參考書目:
Macleod H.A., 2001, 「Thin Film Optical Filters」 , 3rd Edition, Taylor & Francis. Bristol and Philadelphia.
http://www.amazon.com/Thin-Film-Optical-Filters-3rd/dp/0750306882/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208697491&sr=8-1

李正中,2006, 」薄膜光學與鍍膜技術」 ,第五版,藝軒圖書出版社,台北
http://www.yihsient.com.tw/front/bin/ptdetail.phtml?Part=38006&Category=0

2. 非均向光學薄膜:
(1)Propagation equation in biaxial media
(2)Basis Vectors in biaxial media
(3)Transfer matrices in biaxial media
(4)Reflection and transmission

參考書目:
Ian J. Hodgkinson and Qi-Hong Wu, 1998, 「Birefringent Thin Films and Polarizing Elements」, World Scientific Publishing Company.
http://www.amazon.com/Birefringent-Thin-Films-Polarizing-Elements/dp/9810229062/ref=sr_1_1?ie=UTF8&s=books&qid=1208700195&sr=8-1
A. Lakhtakia and R. Messier, 2005, 「Sculptured Thin Films: Nanoengineered Morphology and Optics」, SPIE Publications.
http://www.amazon.com/Sculptured-Thin-Films-Nanoengineered-Morphology/dp/0819456063/ref=sr_1_1?ie=UTF8&s=books&qid=1208701319&sr=8-1

3. Ellipsometry:

(1)Polarization of monochromatic waves of arbitrary spatial structure
(2)Representation of the polarization states of light by complex numbers
(3)Polarizing optical systems
(4)The Jones-matrix formulation
(5)Transformation of polarization by an optical system in the Poincare'-sphere representation

參考書目:
R.M.A. Azzam and N.M. Bashara‡, 1987, 「Ellipsometry and Polarized Light」, North Holland.
http://www.amazon.com/Ellipsometry-Polarized-North-Holland-Personal-Library/dp/0444870164/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208701957&sr=8-1

Harland G. Tompkins and Eugene A. Irene, 2004,」Handbook Of Ellipsometry」, William Andrew Publishing.
http://www.amazon.com/Handbook-Ellipsometry-Materials-Science-Technology/dp/0815514999/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208702267&sr=8-1

4. Surface plasma:

(1)Dispersion relation, extension and propagation length for the electromagnetic fields of the surface plasmons
(2)Excitation of surface plasmons by electrons and by light
(3)Internal and radiation damping
(4)Field enhancement due to surface plasmons

參考書目:
Heinz Raether, 1988, 「Surface Plasmons on Smooth and Rough Surfaces and on Gratings」, Springer.
http://www.amazon.com/Surface-Plasmons-Surfaces-Gratings-Springer/dp/0387173633/ref=sr_1_2?ie=UTF8&s=books&qid=1208878784&sr=8-2

5. Scattering and EMA:

(1)The effective medium theory 「Maxwell-Garnett and Bruggeman Model」:
The existing modifications of Effective Medium theories(EM), such as Maxwell-Garnett(MG) or Bruggemann are established for essentially random structures and could be highly inaccurate for regular or partly ordered arrays.

(2)Discrete-dipole approximation:
The discrete-dipole approximation(DDA) for scattering calculations, computing scattering and absorption by isolated, homogeneous spheres as well as by targets consisting of two contiguous spheres. It is shown that for dielectric or metal materials, the DDA permits calculations of scattering and absorption that are accurate to within a few percent.

(3)Absorption and scattering by an arbitrary particle

參考書目:
Craig F. Bohren and Donald R Huffman, 1998, 「Absorption and Scattering of Light by Small Particles」, Wiley-Interscience.
http://www.amazon.com/Absorption-Scattering-Particles-Science-Paperback/dp/0471293407/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208927752&sr=8-1

參考文獻:
David J. Bergman. The dielectric constant of a composite material – a problem in classical physics. Physic reports (Section C of physics Letters)43; 9, 377-407, 1978.
G. W. Mbise. Angular selective window coating: theory and experiments. SPIE; 2555, 182, 1997.
Purcell EM, Pennypacker CR. Scattering and adsorption of light by nonspherical dielectric grains. Astrophys J; 186, 705, 1973.
Draine BT, Flatau PJ. Discrete-dipole approximation for scattering calculations. J Opt Soc Am A; 11, 1491, 1994.
Draine BT, Flatau PJ. User guide for the discrete dipole approximation code DDSCAT 6.1. http://xxx.arxiv.org/abs/astro-ph/0409262, 2004.

6. FDTD simulation:

(1)Analytical absorbing boundary conditions
(2)Perfectly matched layer absorbing boundary conditions
(3)Near-to-far-field transformation
(4)Dispersive, nonlinear, and gain materials

參考書目:
Allen Taflove and Susan C. Hagness, 2005, 「Computational Electrodynamics: The Finite-Difference Time-Domain Method, Third Edition」, Artech House Publishers.
http://www.amazon.com/Computational-Electrodynamics-Finite-Difference-Time-Domain-Method/dp/1580538320/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208879293&sr=8-1

Dennis M. Sullivan, 2000, 「Electromagnetic Simulation Using the FDTD Method」, Wiley-IEEE Press.
http://www.amazon.com/Electromagnetic-Simulation-Using-FDTD-Method/dp/0780347471/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208880448&sr=8-1

7. Electrodynamics of metamaterials:

(1)Optical magnetism, left-handed optical materials
(2)Semicontinuous metal films
(3)Localization of surface plasmons
(4)Optical properties of metal-dielectric films
(5)Surface Enhanced Raman Scattering (SERS)

參考書目:
Vladimir M. Shalaev, 1999, 「Nonlinear Optics of Random Media: Fractal Composites and Metal-Dielectric Films」, Springer.
http://www.amazon.com/Nonlinear-Optics-Random-Media-Metal-Dielectric/dp/3540656154/ref=sr_1_1?ie=UTF8&s=books&qid=1208881010&sr=8-1

Andrey K. Sarychev and Vladimir M. Shalaev, 2007, 「Electrodynamics of Metamaterials」, World Scientific Publishing Company.
http://www.amazon.com/Electrodynamics-Metamaterials-Andrey-K-Sarychev/dp/981024245X/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1208881277&sr=8-1
Vladimir M. Shalaev, 2002, 」Optical Properties of Nanostructured Random Media」, Springer.
http://www.amazon.com/Optical-Properties-Nanostructured-Applied-Physics/dp/3540420312/ref=sr_1_3?ie=UTF8&s=books&qid=1208881549&sr=1-3

Nader Engheta and Richard W Ziolkowski, 2006, 「Electromagnetic Metamaterials: Physics and Engineering Explorations」, Wiley-IEEE Press.
http://www.amazon.com/Electromagnetic-Metamaterials-Physics-Engineering-Explorations/dp/0471761028/ref=sr_1_1?ie=UTF8&s=books&qid=1208881966&sr=8-1
 
研究計劃
01. 計畫名稱: 光學薄膜之鍍膜參數、微觀結構與光學特性三者關聯性之探討, 擔任計畫主持人, 95年11月01日~92年10月31日, 國科會, 核定

02. 計畫名稱: 紫外光及深紫外光濾光片之研製(II)-紫外及深紫外光薄膜之非均向性研究與應用(2/2), 擔任計畫主持人, 95年08月01日~96年07月31日, 國科會, 核定

03. 計畫名稱: 紫外光及深紫外光濾光片之研製(II)-總計畫(2/2), 擔任共同主持人, 95年08月01日~96年07月31日, 國科會, 核定

04. 計畫名稱: 紫外及深紫外光濾光片之研製(II)-紫外及深紫外光薄膜之非均向性研究與應用(1/2), 擔任計畫主持人, 94年08月01日~95年07月31日, 國科會, 核定

05. 計畫名稱: 紫外光及深紫外光濾光片之研製(II)-總計畫(1/2), 擔任計畫共同主持人, 94年08月01日~95年07月31日, 國科會, 核定

06. 計畫名稱: 紫外及深紫外光濾光片之研製---子計畫二:紫外及深紫外光薄膜之非均向性研究與應用(I), 擔任計畫主持人, 93年08月01日~94年07月31日, 國科會, 核定

07. 計畫名稱: 以表面電漿共振法探討薄膜柱狀結構的光學特性並運用於生物感測技術(II), 擔任計畫主持人, 92年08月01日~93年07月31日, 國科會, 核定

08. 計畫名稱: 分波多工器(DWDM)用干涉濾光片良率相關之成膜機制及鍍後穩定性之研究, 擔任計畫共同主持人, 91年08月01日~92年07月31日, 國科會, 核定

09. 計畫名稱: 以表面電漿共振法探討薄膜柱狀結構的光學特性並運用於生物感測技術, 擔任計畫主持人, 91年08月01日~92年07月31日, 國科會, 核定

10. 計畫名稱: 利用干涉法來量測非均向性物質與薄膜的光學特性, 擔任計畫主持人, 91年08月01日~92年07月31日, 國科會, 核定

 

實驗室成員

博士後研究員

 

游竟維

博士班

95

趙榮輝

96

林佳鋒

98

林孟頡

碩士班

98

周正杰

 

王士浩

 

王瑋豪

 

賴俊榕

99

王永祥

 

廖宏昇

 

吳凰銘

 

林舜凱

 

陳建圻

 

周峯聖

 

畢業學生

92級博士班

彭成瑜

96級博士班

游竟維

92級碩士班

蔣正隆

 

張恆豪

 

范姜士衡

94級碩士班

劉致煒

 

許坤騰

 

游竟維

 

林佳鋒

95級碩士班

陳詠勳

 

廖一鴻

 

來子介

 

許文龍

96級碩士班

李彥蒲

 

詹子儀

 

林晉德

 

黃昱超

97級碩士班

陳志輝

 

王瑜雄

 

林昭輝

 

余泰宏

 

蔡文堡