Dataset for 11-fs dark pulses generated via coherent absorption in plasmonic metamaterial
Dataset for 11-fs dark pulses generated via coherent absorption in plasmonic metamaterial
The excel file contains experimental data for the paper. In particular:
Fig. 1. Absorption spectra of the free-standing metamaterial absorber, A(λ0 ) = 47% is absorption at 800 nm.
Fig. 2. Spectral profiles of gate, carrier and dark pulse, (a-c) experimental spectra, (d-f) simulated spectra.
Fig. 3. Simulated dark pulse in the envelope of carrier pulse. (a-c) Electric fields of 11fs gate pulse, 70fs carrier pulse and dark pulse respectively; (d) Autocorrelation function of the 11fs gate pulse; (e-f) First order electric field cross-correlation function of the 11fs gate pulse with 70fs carrier pulse and dark pulse respectively.
Fig. 4. Experimental data on the generation of dark pulse in the envelope of carrier pulse. (a) First order electric field auto-correlation function of the 11fs gate pulse; (b) cross-correlation function 70fs carrier pulse with gate pulse; (c) cross-correlation function of the dark pulse with gate pulse. Experimental data presented here is after subtracting the constant background. Envelopes of simulated cross-correlation functions taken form Fig. 3 also presented.
Fig. 5. Interaction of short pulses with thin absorber in the standing wave regime. Standing wave absorption as measured on plasmonic metamaterial at different pulse excitations.
University of Southampton
Zheludev, Nikolai
32fb6af7-97e4-4d11-bca6-805745e40cc6
Nalla, Venkatram
70e01cd2-f027-457e-930a-251c83b85806
Valente, Joao
b1d50ead-5c3d-4416-ad05-3beb1b373146
Zheludev, Nikolai
32fb6af7-97e4-4d11-bca6-805745e40cc6
Nalla, Venkatram
70e01cd2-f027-457e-930a-251c83b85806
Valente, Joao
b1d50ead-5c3d-4416-ad05-3beb1b373146
Zheludev, Nikolai, Nalla, Venkatram and Valente, Joao
(2017)
Dataset for 11-fs dark pulses generated via coherent absorption in plasmonic metamaterial.
University of Southampton
doi:10.5258/SOTON/D0205
[Dataset]
Abstract
The excel file contains experimental data for the paper. In particular:
Fig. 1. Absorption spectra of the free-standing metamaterial absorber, A(λ0 ) = 47% is absorption at 800 nm.
Fig. 2. Spectral profiles of gate, carrier and dark pulse, (a-c) experimental spectra, (d-f) simulated spectra.
Fig. 3. Simulated dark pulse in the envelope of carrier pulse. (a-c) Electric fields of 11fs gate pulse, 70fs carrier pulse and dark pulse respectively; (d) Autocorrelation function of the 11fs gate pulse; (e-f) First order electric field cross-correlation function of the 11fs gate pulse with 70fs carrier pulse and dark pulse respectively.
Fig. 4. Experimental data on the generation of dark pulse in the envelope of carrier pulse. (a) First order electric field auto-correlation function of the 11fs gate pulse; (b) cross-correlation function 70fs carrier pulse with gate pulse; (c) cross-correlation function of the dark pulse with gate pulse. Experimental data presented here is after subtracting the constant background. Envelopes of simulated cross-correlation functions taken form Fig. 3 also presented.
Fig. 5. Interaction of short pulses with thin absorber in the standing wave regime. Standing wave absorption as measured on plasmonic metamaterial at different pulse excitations.
Spreadsheet
Data_for_11_fs_dark_pulses_generated_via_coherent_absorption_in_plasmonic_metamaterial.xlsx
- Dataset
Text
readme.docx
- Dataset
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Published date: 2017
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 413596
URI: http://eprints.soton.ac.uk/id/eprint/413596
PURE UUID: 03ffed7f-8e80-4f29-be7a-f61673ea0a34
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Date deposited: 29 Aug 2017 16:31
Last modified: 06 Nov 2023 02:33
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Contributors
Creator:
Nikolai Zheludev
Creator:
Venkatram Nalla
Creator:
Joao Valente
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