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Resonant Raman-Brillouin Scattering
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Acknowledgements I wish to express
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Abstract The 21 st century has seen
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French abstract - Résumé Le XXIè
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Spanish abstract - Resumen El siglo
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te dipole approximation (DDA); Boun
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Contents Contents List of Figures L
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CONTENTS 6 Acousto-Plasmonic Dynami
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List of Figures 1.1 Optical process
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LIST OF FIGURES 2.9 Inelastic light
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LIST OF FIGURES 3.9 Raman-Brillouin
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LIST OF FIGURES 5.2 (a) Extinction
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LIST OF FIGURES 6.2 From bottom to
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List of Tables 2.1 Longitudinal sou
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Introduction Although nanotechnolog
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Part I - Nano-Acoustics of Semicond
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Chapter 1 Raman-Brillouin Scatterin
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1.1. Raman-Brillouin scattering pro
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1.2. Acoustic vibrations First stud
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1.3. Electronic structure Figure 1.
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Chapter 2 Raman-Brillouin Electroni
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2.1. Raman-Brillouin electronic den
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2.1. Raman-Brillouin electronic den
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2.2. Results and discussion 2.1.2 P
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2.2. Results and discussion Figure
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2.2. Results and discussion 2.2.2 S
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2.2. Results and discussion steps (
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2.2. Results and discussion and obv
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2.2. Results and discussion Raman-B
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2.2. Results and discussion Figure
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Chapter 3 Raman-Brillouin Electroni
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3.1. GaAs/AlAs superlattices Figure
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3.2. Raman-Brillouin electronic den
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3.2. Raman-Brillouin electronic den
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3.3. Results and discussion Table 3
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3.3. Results and discussion For SL2
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3.3. Results and discussion 3.3.2 R
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3.3. Results and discussion On the
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3.3. Results and discussion the cen
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Summary Part I An effective electro
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Part II - Acousto-Plasmonics of Met
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Chapter 4 Acousto-Plasmonics: Basic
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4.1. Acoustic vibrations vibration
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4.2. Surface plasmons The second te
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4.2. Surface plasmons taken from Jo
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4.2. Surface plasmons Table 4.1: Fe
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4.2. Surface plasmons Figure 4.8: U
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4.2. Surface plasmons bilities cons
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4.2. Surface plasmons region and by
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Chapter 5 Localized Surface Plasmon
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5.1. Nano-antennas: optical switche
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5.1. Nano-antennas: optical switche
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5.1. Nano-antennas: optical switche
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5.1. Nano-antennas: optical switche
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5.2. Gold ring-based nanoresonators
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5.2. Gold ring-based nanoresonators
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5.2. Gold ring-based nanoresonators
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5.2. Gold ring-based nanoresonators
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5.2. Gold ring-based nanoresonators
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- Page 143 and 144: Summary Part II In Chapter 5, I hav
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- Page 147 and 148: Appendix A Fundamental Physical Con
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- Page 155 and 156: References [1] E. Abraham and S. D.
- Page 157 and 158: REFERENCES Francisco; Lisbon; Londo
- Page 159 and 160: REFERENCES [42] A. Dahlin, M. Zäch
- Page 161 and 162: REFERENCES light-matter interaction
- Page 163 and 164: REFERENCES [86] B. N. Khlebtsov and
- Page 165 and 166: REFERENCES [107] V. K. Lin, S. L. T
- Page 167 and 168: REFERENCES [128] A. Mlayah, J. R. H
- Page 169 and 170: REFERENCES [153] A. H. Quarterman,
- Page 171 and 172: REFERENCES [173] M. A. Suarez, T. G
- Page 173: REFERENCES [193] K. Yee. Numerical
- Page 177 and 178: Index Acoustic impendance, 69 Alumi
- Page 179: INDEX selection rules, 86, 125 Rama