READ ME File For ÔGeometric frustration in polygons of polariton condensates creating vortices of varying topological chargeÕ

Dataset DOI: https://doi.org/10.5258/SOTON/D1738

README Author: Tamsin Cookson, Laboratories of Hybrid Optoelectronics, University of Southampton.

This dataset supports the publication:
AUTHORS: T. Cookson, K. Kalinin, H. Sigurdsson, J.D. Toepfer, S. Alyatkin, M. Silva, W. Langbein, N.G. Berloff and P.G. Lagoudakis.
TITLE: Geometric frustration in polygons of polariton condensates creating vortices of varying topological charge
JOURNAL: Nature Communications
YEAR: 2021

This dataset contains:
Data that are presented in Figs.1,2,3,4,5 of the publication "Geometric frustration in polygons of polariton condensates creating vortices of varying topological charge".
Data that are presented in Figs.S2,S3,S4,S5 in the Supplemental Document of publication "Geometric frustration in polygons of polariton condensates creating vortices of varying topological charge".

The data for any images is presented here as 2D matrices and as such do not have column headings, but are a 2D array to represent the data.

Description and load details for each file:

Figure1_b.txt:
Content: Data shown in Figure 1(b).
Description: Bloch analysis of the energy states available in the reduced Brillouin zone about a pentagon.
Load details: Tab-delimited, image size: 6x50
First Column: x-axis values for simulation of band structure at thermodynamic limit. [xwave]
Second Column: y-axis values for simulation of band structure at thermodynamic limit (lower). [ywave1]
Third Column: y-axis values for simulation of band structure at thermodynamic limit (upper). [ywave2]
Fourth Column: y-axis values for simulation of reduced Brillouin zone energies of angular Bloch modes (lower)for N=5 polygon. [ywave1_2]
Fifth Column: x-axis values for simulation of reduced Brillouin zone energies of angular Bloch modes for N=5 polygon. [xwave_2]
Sixth Column: y-axis values for simulation of reduced Brillouin zone energies of angular Bloch modes (upper)for N=5 polygon. [ywave2_2]

Figure1_c.txt:
Content: Data shown in Figure 1(c).
Description: Bloch analysis of the energy states available in the reduced Brillouin zone about a Hexagon.
Load details: Tab-delimited, image size: 6x50
First Column: x-axis values for simulation of band structure at thermodynamic limit. [xwave]
Second Column: x-axis values for simulation of reduced Brillouin zone energies of angular Bloch modes for N=5 polygon. [xwave_3]
Third Column:y-axis values for simulation of band structure at thermodynamic limit (lower). [ywave1]
Fourth Column: y-axis values for simulation of reduced Brillouin zone energies of angular Bloch modes (lower)for N=5 polygon. [ywave1_3]
Fifth Column: y-axis values for simulation of band structure at thermodynamic limit (upper). [ywave2]
Sixth Column: y-axis values for simulation of reduced Brillouin zone energies of angular Bloch modes (upper)for N=5 polygon. [ywave2_3]

Figure1_d.txt:
Content: Data shown in Figure 1(d).
Description: Real space photoluminescence of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure1_e.txt:
Content: Data shown in Figure 1(e).
Description: 2D-Fourier space photoluminescence of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

Figure1_f.txt:
Content: Data shown in Figure 1(f).
Description: Extracted phase of the real space photoluminescence of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure1_g.txt:
Content: Data shown in Figure 1(g).
Description: Calculated Real space density of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 320x320
Scaling: 0.250784 um per pixel

Figure1_h.txt:
Content: Data shown in Figure 1(h).
Description: Calculated 2D-Fourier space density of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 640x640
Scaling: 0.0196044 inverse um per pixel.

Figure1_i.txt:
Content: Data shown in Figure 1(i).
Description: Calculated real space phase of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 320x320
Scaling: 0.250784 um per pixel

Figure1_j.txt:
Content: Data shown in Figure 1(j).
Description: Real space photoluminescence of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure1_k.txt:
Content: Data shown in Figure 1(k).
Description: 2D-Fourier space photoluminescence of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

Figure1_l.txt:
Content: Data shown in Figure 1(k).
Description: Extracted phase of the real space photoluminescence of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure1_m.txt:
Content: Data shown in Figure 1(m).
Description: Calculated Real space density of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 320x320
Scaling: 0.250784 um per pixel

Figure1_n.txt:
Content: Data shown in Figure 1(n).
Description: Calculated 2D-Fourier space density of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 640x640
Scaling: 0.0196044 inverse um per pixel.

Figure1_o.txt:
Content: Data shown in Figure 1(o).
Description: Calculated real space phase of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 320x320
Scaling: 0.250784 um per pixel

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Figure2_a_21pt44um.txt:
Content: Data shown in Figure 2(a 21.44um).
Description: Real space photoluminescence of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2821 um per pixel

Figure2_a_24pt83um.txt:
Content: Data shown in Figure 2(a 24.83um).
Description: Real space photoluminescence of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2821 um per pixel

Figure2_a_24pt38um.txt:
Content: Data shown in Figure 2(a 24.38um).
Description: Real space photoluminescence of a Heptagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

Figure2_a_21pt12um.txt:
Content: Data shown in Figure 2(a 21.12um).
Description: Real space photoluminescence of a Heptagon with frustrated 2¹/7 coupling between condensates.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2821 um per pixel

Figure2_a_23pt29um.txt:
Content: Data shown in Figure 2(a 23.29um).
Description: Real space photoluminescence of a Heptagon with frustrated 4¹/7 coupling between condensates.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

Figure2_a_17pt77um.txt:
Content: Data shown in Figure 2(a 17.77um).
Description: Real space photoluminescence of a Heptagon with frustrated 6¹/7 coupling between condensates.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2821 um per pixel

Figure2_b_21pt44um.txt:
Content: Data shown in Figure 2(b 21.44um).
Description: Fourier space photoluminescence of a Hexagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.001812 inverse um per pixel

Figure2_b_24pt83um.txt:
Content: Data shown in Figure 2(b 24.83um).
Description: Real space photoluminescence of a Hexagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.001812 inverse um per pixel

Figure2_b_24pt38um.txt:
Content: Data shown in Figure 2(b 24.38um).
Description: Real space photoluminescence of a Heptagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.001812 inverse um per pixel

Figure2_b_21pt12um.txt:
Content: Data shown in Figure 2(b 21.12um).
Description: Real space photoluminescence of a Heptagon with frustrated 2¹/7 coupling between condensates.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.001812 inverse um per pixel

Figure2_b_23pt29um.txt:
Content: Data shown in Figure 2(b 23.29um).
Description: Real space photoluminescence of a Heptagon with frustrated 4¹/7 coupling between condensates.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.001812 inverse um per pixel

Figure2_b_17pt77um.txt:
Content: Data shown in Figure 2(b 17.77um).
Description: Real space photoluminescence of a Heptagon with frustrated 6¹/7 coupling between condensates.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.001812 inverse um per pixel

Figure2_c_21pt44um.txt:
Content: Data shown in Figure 2(c 21.44um).
Description: g1 vs distance around the polygon
Load details: Tab-delimited, image size: 4x400
First Column: y-axis calculated g1 for continuous variable ÔxÕ in an in-phase Hexagon [green dashed]
Second Column: x-axis calculated g1 for continuous variable ÔxÕ in an an in-phase Hexagon [green dashed]
Third Column: calculated g1 discrete variable ÔdÕ in an an in-phase Hexagon [black dots]
Fourth Column: extracted g1 from an in-phase Hexagon [red crosses]

Figure2_c_24pt83um.txt:
Content: Data shown in Figure 2(c 24.83um).
Description: g1 vs distance around the polygon
Load details: Tab-delimited, image size: 4x400
First Column: y-axis calculated g1 for continuous variable ÔxÕ in an anti-phase Hexagon [green dashed]
Second Column: x-axis calculated g1 for continuous variable ÔxÕ in an an anti-phase Hexagon [green dashed]
Third Column: calculated g1 discrete variable ÔdÕ in an an anti-phase Hexagon [black dots]
Fourth Column: extracted g1 from an anti-phase Hexagon [red crosses]

Figure2_c_24pt38um.txt:
Content: Data shown in Figure 2(c 24.38um).
Description: g1 vs distance around the polygon
Load details: Tab-delimited, image size: 4x400
First Column: y-axis calculated g1 for continuous variable ÔxÕ in an in-phase Heptagon [green dashed]
Second Column: x-axis calculated g1 for continuous variable ÔxÕ in an an in-phase Heptagon [green dashed]
Third Column: calculated g1 discrete variable ÔdÕ in an an in-phase Heptagon [black dots]
Fourth Column: extracted g1 from an in-phase Heptagon [red crosses]

Figure2_c_21pt12um.txt:
Content: Data shown in Figure 2(c 21.12um).
Description: g1 vs distance around the polygon
Load details: Tab-delimited, image size: 4x400
First Column: y-axis calculated g1 for continuous variable ÔxÕ in a Heptagon with 2¹/7 coupling between condensates [green dashed]
Second Column: x-axis calculated g1 for continuous variable ÔxÕ in a Heptagon with 2¹/7 coupling between condensates [green dashed]
Third Column: calculated g1 discrete variable ÔdÕ in a Heptagon with 2¹/7 coupling between condensates [black dots]
Fourth Column: extracted g1 from a Heptagon with 2¹/7 coupling between condensates [red crosses]

Figure2_c_23pt29um.txt:
Content: Data shown in Figure 2(c 23.29um).
Description: g1 vs distance around the polygon
Load details: Tab-delimited, image size: 4x400
First Column: y-axis calculated g1 for continuous variable ÔxÕ in a Heptagon with 4¹/7 coupling between condensates [green dashed]
Second Column: x-axis calculated g1 for continuous variable ÔxÕ in a Heptagon with 4¹/7 coupling between condensates [green dashed]
Third Column: calculated g1 discrete variable ÔdÕ in a Heptagon with 4¹/7 coupling between condensates [black dots]
Fourth Column: extracted g1 from a Heptagon with 4¹/7 coupling between condensates [red crosses]

Figure2_c_17pt77um.txt:
Content: Data shown in Figure 2(c 17.77um).
Description: g1 vs distance around the polygon
Load details: Tab-delimited, image size: 4x400
First Column: y-axis calculated g1 for continuous variable ÔxÕ in a Heptagon with 6¹/7 coupling between condensates [green dashed]
Second Column: x-axis calculated g1 for continuous variable ÔxÕ in a Heptagon with 6¹/7 coupling between condensates [green dashed]
Third Column: calculated g1 discrete variable ÔdÕ in a Heptagon with 6¹/7 coupling between condensates [black dots]
Fourth Column: extracted g1 from a Heptagon with 6¹/7 coupling between condensates [red crosses]

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Figure3_a.txt:
Content: Data shown in Figure 3(a).
Description: Real space photoluminescence of a Pentagon with 2¹/5 coupling between neighbouring condensates taken over multiple instances.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure3_b.txt:
Content: Data shown in Figure 3(b).
Description: Fourier space photoluminescence of a Pentagon with 2¹/5 coupling between neighbouring condensates taken over multiple instances.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel

Figure3_c_d.txt:
Content: Data shown in Figure 3(c) and Figure 3(d).
Description: extracted phase of a Pentagon with 2¹/5 coupling between neighbouring condensates taken over single instance.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure3_e.txt:
Content: Data shown in Figure 3(e).
Description: calculated Real space density of a Pentagon with 2¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 320x320
Scaling: 0.250784 um per pixel

Figure3_f.txt:
Content: Data shown in Figure 3(f).
Description: calculated Fourier space density of a Pentagon with 2¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 640x604
Scaling: 0.0196044 inverse um per pixel

Figure3_g_h.txt:
Content: Data shown in Figure 3(g) and Figure 3(h).
Description: calculated phase of a Pentagon with 2¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 1600x1600
Scaling: 0.0500313 um per pixel

Figure3_i.txt:
Content: Data shown in Figure 3(i).
Description: extracted phase difference between neighbouring condensates.
Load details: Tab-delimited, image size: 4x5
First Column: expected phase difference from theory
Second Column: extracted phase difference from experiment
Third Column: upper boundary for deviation from theory
Fourth Column: lower boundary for deviation from theory

Figure3_j.txt:
Content: Data shown in Figure 3(j).
Description: line profiles about central vortex.
Load details: Tab-delimited, image size: 2x200
First Column: line profile about central vortex extracted from experimental phase
Second Column: line profile about central vortex extracted from calculated phase

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Figure4_a.txt:
Content: Data shown in Figure 4(a).
Description: extracted Real space density of a Pentagon with 4¹/5 coupling between neighbouring condensates taken over multiple instances.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.104 um per pixel

Figure5_b_c.txt:
Content: Data shown in Figure 4(b) and Figure 4(c).
Description: extracted phase of a Pentagon with 4¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 415x425
Scaling: 0.104 um per pixel

Figure4_d.txt:
Content: Data shown in Figure 4(d).
Description: calculated Real space density of a Pentagon with 4¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 320x320
Scaling: 0.250784 um per pixel

Figure4_e_f.txt:
Content: Data shown in Figure 4(e) and Figure 4(f).
Description: calculated phase of a Pentagon with 4¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 1600x1600
Scaling: 0.0500313 um per pixel

Figure4_g.txt:
Content: Data shown in Figure 5(g).
Description: calculated Fourier space density of a Pentagon with 4¹/5 coupling between neighbouring condensates.
Load details: Tab-delimited, image size: 640x604
Scaling: 0.0196044 inverse um per pixel

Figure4_h.txt:
Content: Data shown in Figure 4(h).
Description: extracted and expected phase difference between neighbouring condensates
Load details: Tab-delimited, image size: 5x7
First Column: y wave for the expected phase difference from the theory.
Second Column: x wave for the expected phase and min/max difference from the theory waves.
Third Column: upper boundary for deviation from theoretical value
Fourth Column: lower boundary for deviation from theoretical value
Fifth Column: extracted phase difference from the experiment.

Figure4_i.txt:
Content: Data shown in Figure 4(i).
Description: line profiles about the central vortex.
Load details: Tab-delimited, image size: 2x200
First Column: Line profile about central vortex from experimental data.
Second Column: Line profile about central vortex from calculated data.

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Figure5_a.txt:
Content: Data shown in Figure 5(a).
Description: extracted Real space density of a Pentagon with a vortex- antivortex pain at the centre.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure5_b_c.txt:
Content: Data shown in Figure 5(b) and Figure 5(c).
Description: extracted phase of a Pentagon with a vortex- antivortex pain at the centre.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

Figure5_d.txt:
Content: Data shown in Figure 5(d).
Description: calculated Real space density of a Pentagon with a vortex- antivortex pain at the centre.
Load details: Tab-delimited, image size: 801x801
Scaling: 0.1 um per pixel

Figure5_e_f.txt:
Content: Data shown in Figure 5(e) and Figure 5(f).
Description: calculated phase of a Pentagon with a vortex- antivortex pain at the centre.
Load details: Tab-delimited, image size: 801x801
Scaling: 0.1 um per pixel

Figure5_g.txt:
Content: Data shown in Figure 5(g).
Description: calculated Fourier space density of a Pentagon with a vortex- antivortex pain at the centre.
Load details: Tab-delimited, image size: 640x604
Scaling: 0.0196044 inverse um per pixel

Figure5_h.txt:
Content: Data shown in Figure 5(h).
Description: extracted and expected phase difference between neighbouring condensates
Load details: Tab-delimited, image size: 3x6
First Column: y wave for the expected phase difference from the theory.
Second Column: x wave for the expected phase difference from the theory.
Third Column: extracted phase difference from the experiment.

Figure5_i.txt:
Content: Data shown in Figure 5(i).
Description: line profiles about the central vortex-antivortex pair
Load details: Tab-delimited, image size: 4x200
First Column: Line profile about lower vortex from calculated data.
Second Column: Line profile about upper vortex from calculated data.
Third Column: Line profile about lower vortex from experimental data.
Fourth Column: Line profile about upper vortex from experimental data.

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SUPPLEMENTARY INFORMATION FIGURES
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We note this are labelled as they appeared in the accepted manuscript
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FigureS2_a.txt:
Content: Data shown in Figure S2(a).
Description: Real space photoluminescence of a Octagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_b.txt:
Content: Data shown in Figure S2(b).
Description: 2D-Fourier space photoluminescence of a Octagon with in-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS2_c.txt:
Content: Data shown in Figure S2(c).
Description: Extracted phase of the real space photoluminescence of a Octagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_d.txt:
Content: Data shown in Figure S2(d).
Description: Real space photoluminescence of a Octagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_e.txt:
Content: Data shown in Figure S2(e).
Description: 2D-Fourier space photoluminescence of a Octagon with anti-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS2_f.txt:
Content: Data shown in Figure S2(f).
Description: Extracted phase of the real space photoluminescence of a Octagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_g.txt:
Content: Data shown in Figure S2(g).
Description: Real space photoluminescence of a Decagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_h.txt:
Content: Data shown in Figure S2(h).
Description: 2D-Fourier space photoluminescence of a Decagon with in-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS2_i.txt:
Content: Data shown in Figure S2(i).
Description: Extracted phase of the real space photoluminescence of a Decagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_j.txt:
Content: Data shown in Figure S2(j).
Description: Real space photoluminescence of a Decagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS2_k.txt:
Content: Data shown in Figure S2(k).
Description: 2D-Fourier space photoluminescence of a Decagon with anti-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS2_l.txt:
Content: Data shown in Figure S2(l).
Description: Extracted phase of the real space photoluminescence of a Decagon with anti-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

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FigureS3_a.txt:
Content: Data shown in Figure S3(a).
Description: Real space photoluminescence of a Pentagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS3_b.txt:
Content: Data shown in Figure S3(b).
Description: 2D-Fourier space photoluminescence of a Pentagon with in-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS3_c.txt:
Content: Data shown in Figure S3(c).
Description: Extracted phase of the real space photoluminescence of a Pentagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS3_d.txt:
Content: Data shown in Figure S3(d).
Description: Real space photoluminescence of a Heptagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS3_e.txt:
Content: Data shown in Figure S3(e).
Description: 2D-Fourier space photoluminescence of a Heptagon with in-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS3_f.txt:
Content: Data shown in Figure S3(f).
Description: Extracted phase of the real space photoluminescence of a Heptagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS3_g.txt:
Content: Data shown in Figure S3(g).
Description: Real space photoluminescence of a Nonagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

FigureS3_h.txt:
Content: Data shown in Figure S3(h).
Description: 2D-Fourier space photoluminescence of a Nonagon with in-phase coupling.
Load details: Tab-delimited, image size: 1024x1024
Scaling: 0.0085 inverse um per pixel.

FigureS3_i.txt:
Content: Data shown in Figure S3(i).
Description: Extracted phase of the real space photoluminescence of a Nonagon with in-phase coupling.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.0629 um per pixel

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FigureS4_a.dat:
Content: Data shown in Figure S4(a).
Description: calculated probability of nearest neighbour coupling in a pentagon as a function of edge length.
Load details: Tab-delimited, image size: 3x161
First Column: x wave - edge length
Second Column: y wave - probability of getting an |m|=2 vortex
Third Column: y wave - probability of getting in-phase coupling

FigureS4_b.dat:
Content: Data shown in Figure S4(b).
Description: calculated probability of nearest neighbour coupling in a hexagon as a function of edge length.
Load details: Tab-delimited, image size: 3x166
First Column: x wave - edge length
Second Column: y wave - probability of getting anti-phase coupling 
Third Column: y wave - probability of getting in-phase coupling

FigureS4_c.dat:
Content: Data shown in Figure S4(c).
Description: calculated probability |m| = 2 vortex formation for increasing standard deviation in the randomly displaced vertex coordinates of the pentagon.
Load details: Tab-delimited, image size: 2x7
First Column: x wave - bar graph spacing
Second Column: y wave -  probability


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FigureS5_19pt81um.txt:
Content: Data shown in Figure S5(19.81 um).
Description: Real space photoluminescence of a Heptagon of radius 19.81 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_20pt46um.txt:
Content: Data shown in Figure S5(20.46 um).
Description: Real space photoluminescence of a Heptagon of radius 20.46 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_20pt90um.txt:
Content: Data shown in Figure S5(20.90 um).
Description: Real space photoluminescence of a Heptagon of radius 20.90 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_21pt12um.txt:
Content: Data shown in Figure S5(21.12 um).
Description: Real space photoluminescence of a Heptagon of radius 21.12 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_21pt33um.txt:
Content: Data shown in Figure S5(21.33 um).
Description: Real space photoluminescence of a Heptagon of radius 21.33 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_21pt55um.txt:
Content: Data shown in Figure S5(21.55 um).
Description: Real space photoluminescence of a Heptagon of radius 21.55 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_21pt77um.txt:
Content: Data shown in Figure S5(21.77 um).
Description: Real space photoluminescence of a Heptagon of radius 21.77 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_21pt98um.txt:
Content: Data shown in Figure S5(21.98 um).
Description: Real space photoluminescence of a Heptagon of radius 21.98 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_22pt42um.txt:
Content: Data shown in Figure S5(22.42 um).
Description: Real space photoluminescence of a Heptagon of radius 22.42 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_22pt53um.txt:
Content: Data shown in Figure S5(22.53 um).
Description: Real space photoluminescence of a Heptagon of radius 22.53 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_22pt64um.txt:
Content: Data shown in Figure S5(22.64 um).
Description: Real space photoluminescence of a Heptagon of radius 22.64 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_22pt75um.txt:
Content: Data shown in Figure S5(22.75 um).
Description: Real space photoluminescence of a Heptagon of radius 22.75 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel
 
FigureS5_22pt86um.txt:
Content: Data shown in Figure S5(22.86 um).
Description: Real space photoluminescence of a Heptagon of radius 22.86 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_22pt96um.txt:
Content: Data shown in Figure S5(22.96 um).
Description: Real space photoluminescence of a Heptagon of radius 22.96 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_23pt09um.txt:
Content: Data shown in Figure S5(23.09 um).
Description: Real space photoluminescence of a Heptagon of radius 23.09 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_23pt22um.txt:
Content: Data shown in Figure S5(23.22 um).
Description: Real space photoluminescence of a Heptagon of radius 23.22 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_23pt29um.txt:
Content: Data shown in Figure S5(23.29 um).
Description: Real space photoluminescence of a Heptagon of radius 23.29 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_23pt51um.txt:
Content: Data shown in Figure S5(23.51 um).
Description: Real space photoluminescence of a Heptagon of radius 23.51 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_23pt73um.txt:
Content: Data shown in Figure S5(23.73 um).
Description: Real space photoluminescence of a Heptagon of radius 23.73 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_23pt95um.txt:
Content: Data shown in Figure S5(23.95 um).
Description: Real space photoluminescence of a Heptagon of radius 23.95 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_24pt16um.txt:
Content: Data shown in Figure S5(24.16 um).
Description: Real space photoluminescence of a Heptagon of radius 24.16 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_24pt27um.txt:
Content: Data shown in Figure S5(24.27 um).
Description: Real space photoluminescence of a Heptagon of radius 24.27 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_24pt38um.txt:
Content: Data shown in Figure S5(24.38 um).
Description: Real space photoluminescence of a Heptagon of radius 24.38 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_24pt49um.txt:
Content: Data shown in Figure S5(24.49 um).
Description: Real space photoluminescence of a Heptagon of radius 24.49 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel

FigureS5_24pt60um.txt:
Content: Data shown in Figure S5(24.60 um).
Description: Real space photoluminescence of a Heptagon of radius 24.60 um.
Load details: Tab-delimited, image size: 2048x2048
Scaling: 0.2177 um per pixel