Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission

Krewer KL, Jiang K, Bley K, Jin Z, Mics Z, Weiss CK, Landfester K, Elmers H-J, Bonn M, Turchinovich D (2017)
Applied Physics Letters 111(2).

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
Download
Es wurden keine Dateien hochgeladen. Nur Publikationsnachweis!
Autor*in
Krewer, K. L.; Jiang, K.; Bley, K.; Jin, Z.; Mics, Z.; Weiss, C. K.; Landfester, K.; Elmers, H.-J.; Bonn, M.; Turchinovich, DmitryUniBi
Abstract / Bemerkung
Using simple and inexpensive nanosphere lithography, we produce large, centimeter-squared sized thin golden films patterned with a hexagonal array of nanoapertures with controllable dimensions on the order of 100–300 nm, spaced by a 350–375 nm pitch distance. The optical transmission spectra of our samples are dominated by the resonant plasmonic features in the spectral range 500–700 nm, caused by the nanostructure in the film. At the same time, the transmission at terahertz (THz) radiation is as high as ∼10% and is spectrally flat. Our measurements are in agreement with finite difference time domain simulations. Such thin metal hole array films allow for very efficient injection of optical energy, while at the same time maintaining reasonably high transparency of THz waves. These structures can be used in any application combining strong optical sensitivity and THz transparency, in optical biomolecular sensing, or as optically transparent electrodes.
Erscheinungsjahr
2017
Zeitschriftentitel
Applied Physics Letters
Band
111
Ausgabe
2
ISSN
0003-6951
eISSN
1077-3118
Page URI
https://pub.uni-bielefeld.de/record/2983616

Zitieren

Krewer KL, Jiang K, Bley K, et al. Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission. Applied Physics Letters. 2017;111(2).
Krewer, K. L., Jiang, K., Bley, K., Jin, Z., Mics, Z., Weiss, C. K., Landfester, K., et al. (2017). Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission. Applied Physics Letters, 111(2). https://doi.org/10.1063/1.4992131
Krewer, K. L., Jiang, K., Bley, K., Jin, Z., Mics, Z., Weiss, C. K., Landfester, K., Elmers, H.-J., Bonn, M., and Turchinovich, Dmitry. 2017. “Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission”. Applied Physics Letters 111 (2).
Krewer, K. L., Jiang, K., Bley, K., Jin, Z., Mics, Z., Weiss, C. K., Landfester, K., Elmers, H. - J., Bonn, M., and Turchinovich, D. (2017). Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission. Applied Physics Letters 111.
Krewer, K.L., et al., 2017. Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission. Applied Physics Letters, 111(2).
K.L. Krewer, et al., “Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission”, Applied Physics Letters, vol. 111, 2017.
Krewer, K.L., Jiang, K., Bley, K., Jin, Z., Mics, Z., Weiss, C.K., Landfester, K., Elmers, H.-J., Bonn, M., Turchinovich, D.: Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission. Applied Physics Letters. 111, (2017).
Krewer, K. L., Jiang, K., Bley, K., Jin, Z., Mics, Z., Weiss, C. K., Landfester, K., Elmers, H.-J., Bonn, M., and Turchinovich, Dmitry. “Large area conductive nanoaperture arrays with strong optical resonances and spectrally flat terahertz transmission”. Applied Physics Letters 111.2 (2017).
Export

Markieren/ Markierung löschen
Markierte Publikationen

Open Data PUB

Suchen in

Google Scholar