READ ME File For 'Dataset for Thesis: Adaptive Graphene Electronics and Plasmonics'

Dataset DOI: 10.5258/SOTON/D1691

ReadMe Author: Jon Gorecki, University of Southampton, https://orcid.org/0000-0001-9205-2294

This dataset supports the thesis entitled "Adaptive Graphene Electronics and Plasmonics"
AWARDED BY: University of Southampton
DATE OF AWARD: 2020/2021

DESCRIPTION OF THE DATA
This data contains experimental and simulated investigations of graphene on photoresponsive lithium niobate substrates for tunable electronic and plasmonic applications.
The data here is saved in CSV (comma separated value) format, which can be opened with a wide range of freely available software, such as text editors, or spreadsheet readers.
Each files in the dataset is saved with a file name corresponding to the figure number in the thesis, and each file includes named column headers.

This dataset contains:
*Figure 2.8(c): Graphene resistivity plotted against illumination fluence reveals a photo-induced resistivity change.
*Figure 3.14(b): Experimental and simulated change in transmittance spectra for graphene/metamaterial device on lithium niobate for split ring resonator configuration.
*Figure 3.15(b): Experimental and simulated change in transmittance spectra for graphene/metamaterial device on lithium niobate for ring resonator configuration.
*Figure 4.4(b): Simulated transmission spectra for graphene on lithium niobate ribbon resonators for varying graphene fermi energy values. 
*Figure 4.5(b): Simulated transmission spectra for graphene on lithium niobate split ring resonator for two orthogonal polarisations.
*Figure 4.7(e): Simulated transmission spectra for graphene on lithium niobate ribbon resontors for varying period dimensions.
*Figure 4.8(c): Simulated transmission spectra for graphene on lithium niobate split ring resonator for various graphene mobility values.



Date of data collection: [2016-2020]

Information about geographic location of data collection: 
Southampton, UK

Related projects/Funders:
Funded by EPSRC  (EP/N509747/1).

Related publication:
Optical Gating of Graphene on Photoconductive Fe:LiNbO3, doi.org/10.1021/acsnano.8b02161
Optically Reconfigurable Graphene/Metal Metasurface on Fe:LiNbO3for Adaptive THz Optics, doi.org/10.1021/acsanm.0c02243
High Precision THz-TDS via Self Referenced Transmission Echo Method, doi.org/10.1364/AO.391103

Date that the file was created: Jan 2021