Biomedical Engineering Reference
In-Depth Information
2. Bharadwaj, P., Bouhelier, A. and Novotny, L. (2011). Electrical excitation
of surface plasmons,
Physical Review Letters
106
, 22, p. 226802.
3. Blackstock, A. W. and Ritchie, R. H. and Birkhoff, R. D. (1955). Mean free
pathfordiscreteelectronenergylossesinmetallicfoils,
Physical Review
100
,4, p. 1078.
4. Boudarham,G.,Feth,N.,Myroshnychenko,V.,Linden,S.,Garc´ıadeAbajo,
J., Wegener, M. and Kociak, M. (2010). Spectral imaging of individual
split-ring resonators,
Phys. Rev. Lett.
105
,p. 255501.
5. Chang, D., Sørensen, A., Hemmer, P. and Lukin, M. (2006). Quantum
optics with surface plasmons,
Physical Review Letters
97
, 5, p. 53002.
6. Chu, M. W., and Myroshnychenko, V., and Chen, CH., and Deng, J. P.,
and Mou, C. Y., and Garc´ıa de Abajo, F. J. (2009). Probing bright and
dark surface-plasmon modes in individual and coupled nobel metal
nanoparticles using an electron beam,
Nano Lett.
1
, 9, pp. 399-404.
7. Garc´ıa de Abajo, F. J. and Kociak, M. (2008). Probing the photonic local
density of states with electron energy loss spectroscopy,
Phys. Rev. Lett.
100
,p. 106804.
8. Gordon,R.(2009).Reflectionofcylindricalsurfacewaves,
Optics Express
17
, 21, pp. 18621-18629.
9. Hohenester, U., Ditlbacher, H. and Krenn, J. R. (2009). Electron-
energy-loss spectra of plasmonic nanoparticles,
Phys. Rev. Lett.
103
,
p. 106801.
10. Imura, K., Nagahara, T. and Okamoto, H. (2005). Near-field optical
imaging of plasmon modes in gold nanorods,
The Journal of Chemical
Physics
122
,p. 154701.
11. Lahiri, B., McMeekin, S., Khokhar, A., De La Rue, R. and Johnson, N.
(2010). Magnetic response of split ring resonators (srrs) at visible
frequencies,
Optics Express
18
, 3, pp. 3210-3218.
12. Lambe,J.andMcCarthy,S.(1976).Lightemissionfrominelasticelectron
tunneling,
Physical Review Letters
37
, 14, pp. 923-925.
13. McMorran, B. J., Agrawal, A., Anderson, I. M., Herzing, A. A., Lezec, H. J.,
McClelland, J. J. and Unguris, J. (2011). Electron vortex beams with
high quanta of orbital angular momentum,
Science
331
, 6014, pp. 192-
195.
14. Merlin, R. (2009). Metamaterials and the landau-lifshitz permeabil-
ity argument: Large permittivity begets high-frequency magnetism,
Proceedings of the National Academy of Sciences of the United States of
America
106
, 6, pp. 1693-1698.