| Description |
1 CD-ROM (PDF file, 154 pages, illustrations) ; 12 cm |
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4 3/4 in |
| Summary |
" ...investigating and understanding the parameters that affect the LSPR (localized surface plasmon resonance) spectrum is important for optimum design and fabrication of LSPR devices... This thesis studies different parameters relating to geometrical structures and light attributes that affect the LSPR spectrum characteristics such as plasmon wavelength shift, surface electric field enhancement factor, and extinction/scattering spectrum sharpness." ... from the Abstract |
| Notes |
Submitted to the School of School of Engineering in the Faculty of Science, Engineering and Built Environment, Deakin University |
|
Thesis (Ph.D.) -- Deakin University, Victoria, 2014 |
| Bibliography |
Bibliography: pages 149-154 |
| Subject |
Surface plasmon resonance.
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Plasmons (Physics)
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Nanobiotechnology.
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| Genre/Form |
Academic theses.
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| Author |
Deakin University. Faculty of Science, Engineering and Built Environment
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Deakin University. School of Engineering, degree granting institution
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