Long-range surface-plasmon modes in silver and aluminum films

1983 ◽  
Vol 8 (7) ◽  
pp. 377 ◽  
Author(s):  
J. C. Quail ◽  
J. G. Rako ◽  
H. J. Simon
Keyword(s):  
Long Range ◽  
Surface Plasmon ◽  
Aluminum Films ◽  
Plasmon Modes

Analytical Model of Mid-Infrared Surface Plasmon Modes in a Cylindrical Long-Range Waveguide With Double-Layer Graphene

2017 ◽  
Vol 35 (10) ◽  
pp. 1971-1979 ◽  
Author(s):  
Jian-Ping Liu ◽  
Xiang Zhai ◽  
Fang Xie ◽  
Ling-Ling Wang ◽  
Sheng-Xuan Xia ◽  
...  
Keyword(s):  
Long Range ◽  
Analytical Model ◽  
Surface Plasmon ◽  
Double Layer ◽  
Mid Infrared ◽  
Layer Graphene ◽  
Plasmon Modes

scholarly journals Long-range spiralling surface plasmon modes on metallic nanowires

2008 ◽  
Vol 16 (18) ◽  
pp. 13617 ◽  
Author(s):  
M. A. Schmidt ◽  
P. S. Russell
Keyword(s):  
Long Range ◽  
Surface Plasmon ◽  
Metallic Nanowires ◽  
Plasmon Modes

Silicon-compatible Ultra-long-range Surface Plasmon Modes

2008 ◽  
Vol 1077 ◽  
Author(s):  
Ali Sabbah ◽  
C. G. Durfee ◽  
R. T. Collins ◽  
T. E. Furtak ◽  
R. E. Hollingsworth ◽  
...  
Keyword(s):  
Long Range ◽  
Surface Plasmon ◽  
Optoelectronic Devices ◽  
Operating Conditions ◽  
Experimental Results ◽  
Fiber Communications ◽  
Semiconductor Fabrication ◽  
Mos Structures ◽  
Plasmon Modes ◽  
Sub Wavelength

ABSTRACTSurface plasmon waveguides show promise as sub-wavelength signal elements in integrated optoelectronic devices. Modulation of these signals requires designs that are compatible with existing semiconductor fabrication technologies, such as MOS structures. We show that waveguides of this type are not only practical, but offer distinct advantages. In particular, an asymmetric geometry is shown to support very long-range modes. In preliminary experimental results we report the observation of these modes in an visible wavelength analog structure. Our models predict that these characteristics can be maintained while shifting the operating conditions to the fiber communications band in waveguides constructed in silicon.

Metal-oxide-semiconductor-compatible ultra-long-range surface plasmon modes

2008 ◽  
Vol 103 (11) ◽  
pp. 113106 ◽  
Author(s):  
C. G. Durfee ◽  
T. E. Furtak ◽  
R. T. Collins ◽  
R. E. Hollingsworth
Keyword(s):  
Metal Oxide ◽  
Long Range ◽  
Surface Plasmon ◽  
Metal Oxide Semiconductor ◽  
Oxide Semiconductor ◽  
Plasmon Modes

Time-Resolved, Laser-Induced Phase Transformation in Aluminum

1984 ◽  
Vol 35 ◽  
Author(s):  
S. Williamson ◽  
G. Mourou ◽  
J.C.M. Li
Keyword(s):  
Point Defect ◽  
Long Range ◽  
Rapid Heating ◽  
Range Order ◽  
Nucleation Theory ◽  
Long Range Order ◽  
Time Resolved ◽  
Aluminum Films ◽  
Thin Aluminum ◽  
Initial Nucleus

ABSTRACTThe technique of picosecond electron diffraction is used to time resolve the laser-induced melting of thin aluminum films. It is observed that under rapid heating conditions, the long range order of the lattice subsists for lattice temperatures well above the equilibrium point, indicative of superheating. This superheating can be verified by directly measuring the lattice temperature. The collapse time of the long range order is measured and found to vary from 20 ps to several nanoseconds according to the degree of superheating. Two interpretations of the delayed melting are offered, based on the conventional nucleation and point defect theories. While the nucleation theory provides an initial nucleus size and concentration for melting to occur, the point defect theory offers a possible explanation for how the nuclei are originally formed.

scholarly journals Correction: Investigation of plasmonic signal enhancement based on long range surface plasmon resonance with gold nanoparticle tags

2016 ◽  
Vol 4 (44) ◽  
pp. 10562-10562
Author(s):  
Chih-Tsung Yang ◽  
Lin Wu ◽  
Ping Bai ◽  
Benjamin Thierry
Keyword(s):  
Surface Plasmon Resonance ◽  
Gold Nanoparticle ◽  
Long Range ◽  
Surface Plasmon ◽  
Plasmon Resonance ◽  
Signal Enhancement

Correction for ‘Investigation of plasmonic signal enhancement based on long range surface plasmon resonance with gold nanoparticle tags’ by Chih-Tsung Yang et al., J. Mater. Chem. C, 2016, 4, 9897–9904.

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