READ ME File For 'thesis_data.zip'

Dataset DOI: https://doi.org/10.5258/SOTON/D2260

ReadMe Author: Stella L. Harrison, Hybrid Photonics Group, University of Southampton [https://orcid.org/0000-0002-0302-728X]

** This dataset supports the PhD Thesis of Stella Louise Harrison **

AUTHORS: Stella L. Harrison (S.L.Harrison@soton.ac.uk)
TITLE: Optically Trapped Polariton Condensates as Dissipative Coupled Oscillator Networks

Some data for this thesis is in 'dataset.zip', other data can be found through DOI:10.5258/SOTON/D1268 and DOI:10.5258/SOTON/D2104

FUNDING/GRANTS:
--> EPSRC – DTP (DTA) - EP/N509747/1 & EP/R513325/1
--> EPSRC Grant No. EP/M025330/1 on Hybrid Polaritonics


_________________________________________________________________________________________________________

♦♦ This dataset contains: ♦♦

FILE NAME           |  DESCRIPTION
--------------------+------------------------------------------------------------------------------------
5.3a.txt          --- Fig 5.3(a), row1: x values, rows 2-6: |r complete> of N = {5,10,15,20,25,30}
5.3b_N5_Jc1.txt   --- Fig 5.3(b), N = 05, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N10_Jc1.txt  --- Fig 5.3(b), N = 10, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N15_Jc1.txt  --- Fig 5.3(b), N = 15, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N20_Jc1.txt  --- Fig 5.3(b), N = 20, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N25_Jc1.txt  --- Fig 5.3(b), N = 25, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N30_Jc1.txt  --- Fig 5.3(b), N = 30, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N5_Jc10.txt  --- Fig 5.3(b), N = 05, J_c = 01, row1: J values, row2: <r_inter>
5.3b_N10_Jc10.txt --- Fig 5.3(b), N = 10, J_c = 10, row1: J values, row2: <r_inter>
5.3b_N15_Jc10.txt --- Fig 5.3(b), N = 15, J_c = 10, row1: J values, row2: <r_inter>
5.3b_N20_Jc10.txt --- Fig 5.3(b), N = 20, J_c = 10, row1: J values, row2: <r_inter>
5.3b_N25_Jc10.txt --- Fig 5.3(b), N = 25, J_c = 10, row1: J values, row2: <r_inter>
5.3b_N30_Jc10.txt --- Fig 5.3(b), N = 30, J_c = 10, row1: J values, row2: <r_inter>
5.3c_N5_Jc1.txt   --- Fig 5.3(b), N = 05, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N10_Jc1.txt  --- Fig 5.3(b), N = 10, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N15_Jc1.txt  --- Fig 5.3(b), N = 15, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N20_Jc1.txt  --- Fig 5.3(b), N = 20, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N25_Jc1.txt  --- Fig 5.3(b), N = 25, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N30_Jc1.txt  --- Fig 5.3(b), N = 30, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N5_Jc10.txt  --- Fig 5.3(b), N = 05, J_c = 01, row1: J values, row2: <r_intra>
5.3c_N10_Jc10.txt --- Fig 5.3(b), N = 10, J_c = 10, row1: J values, row2: <r_intra>
5.3c_N15_Jc10.txt --- Fig 5.3(b), N = 15, J_c = 10, row1: J values, row2: <r_intra>
5.3c_N20_Jc10.txt --- Fig 5.3(b), N = 20, J_c = 10, row1: J values, row2: <r_intra>
5.3c_N25_Jc10.txt --- Fig 5.3(b), N = 25, J_c = 10, row1: J values, row2: <r_intra>
5.3c_N30_Jc10.txt --- Fig 5.3(b), N = 30, J_c = 10, row1: J values, row2: <r_intra>
5.5a_N05_Jc1.txt  --- Fig 5.5(a), N = 05, J_c = 01, row1: J values, row2: <r_inter>
5.5a_N10_Jc1.txt  --- Fig 5.5(a), N = 10, J_c = 01, row1: J values, row2: <r_inter>
5.5a_N15_Jc1.txt  --- Fig 5.5(a), N = 15, J_c = 01, row1: J values, row2: <r_inter>
5.5a_N20_Jc1.txt  --- Fig 5.5(a), N = 20, J_c = 01, row1: J values, row2: <r_inter>
5.5a_N25_Jc1.txt  --- Fig 5.5(a), N = 25, J_c = 01, row1: J values, row2: <r_inter>
5.5a_N30_Jc1.txt  --- Fig 5.5(a), N = 30, J_c = 01, row1: J values, row2: <r_inter>
5.5a_N05_Jc10.txt --- Fig 5.5(a), N = 05, J_c = 10, row1: J values, row2: <r_inter>
5.5a_N10_Jc10.txt --- Fig 5.5(a), N = 10, J_c = 10, row1: J values, row2: <r_inter>
5.5a_N15_Jc10.txt --- Fig 5.5(a), N = 15, J_c = 10, row1: J values, row2: <r_inter>
5.5a_N20_Jc10.txt --- Fig 5.5(a), N = 20, J_c = 10, row1: J values, row2: <r_inter>
5.5a_N25_Jc10.txt --- Fig 5.5(a), N = 25, J_c = 10, row1: J values, row2: <r_inter>
5.5a_N30_Jc10.txt --- Fig 5.5(a), N = 30, J_c = 10, row1: J values, row2: <r_inter>
5.5b_N05_Jc1.txt  --- Fig 5.5(a), N = 05, J_c = 01, row1: J values, row2: <r_intra>
5.5b_N10_Jc1.txt  --- Fig 5.5(a), N = 10, J_c = 01, row1: J values, row2: <r_intra>
5.5b_N15_Jc1.txt  --- Fig 5.5(a), N = 15, J_c = 01, row1: J values, row2: <r_intra>
5.5b_N20_Jc1.txt  --- Fig 5.5(a), N = 20, J_c = 01, row1: J values, row2: <r_intra>
5.5b_N25_Jc1.txt  --- Fig 5.5(a), N = 25, J_c = 01, row1: J values, row2: <r_intra>
5.5b_N30_Jc1.txt  --- Fig 5.5(a), N = 30, J_c = 01, row1: J values, row2: <r_intra>
5.5b_N05_Jc10.txt --- Fig 5.5(a), N = 05, J_c = 10, row1: J values, row2: <r_intra>
5.5b_N10_Jc10.txt --- Fig 5.5(a), N = 10, J_c = 10, row1: J values, row2: <r_intra>
5.5b_N15_Jc10.txt --- Fig 5.5(a), N = 15, J_c = 10, row1: J values, row2: <r_intra>
5.5b_N20_Jc10.txt --- Fig 5.5(a), N = 20, J_c = 10, row1: J values, row2: <r_intra>
5.5b_N25_Jc10.txt --- Fig 5.5(a), N = 25, J_c = 10, row1: J values, row2: <r_intra>
5.5b_N30_Jc10.txt --- Fig 5.5(a), N = 30, J_c = 10, row1: J values, row2: <r_intra>
5.6b.txt          --- Fig 5.6(b), row1: time values, row2-91: phase values
5.6c.txt          --- Fig 5.6(c), row1: sigma values, row2: error complete graph, row3: error unembedde Jc = 10, row4: error embedded Jc = 10, row5: error unembedded Jc = 20, row6: error embedded Jc = 20
5.8a.txt          --- Fig 5.8(a), unlooped chains, row1: Jc values, rows 2-11: Embedded error N = 50 to 5, rows 12-21: Unembedded error N = 50 to 5
5.8b.txt          --- Fig 5.8(b), looped chains, row1: Jc values, rows 2-11: Embedded error N = 50 to 5, rows 12-21: Unembedded error N = 50 to 5
5.9a.txt          --- Fig 5.9(a), row1: x-data of N, row2: Error for \epsilon = 0, row3: Error for \epsilon = 0.04
5.9b.txt          --- Fig 5.9(b), row1: Time, rows 2 - 6: amplitudes
5.9c.txt          --- Fig 5.9(c), row1: Time, rows 2 - 91: amplitudes
5.9d.txt          --- Fig 5.9(d), row1: Time, rows 2 - 91: amplitudes
6.4a.txt          --- Fig 6.4(a), 200 x 200 pixels of experimental real-space phase, 1 pixel = 0.0325 um, normalised between -pi and pi radians
6.4b.txt          --- Fig 6.4(b), 200 x 200 pixels of experimental real-space phase, 1 pixel = 0.0325 um, normalised between -pi and pi radians
6.4c.txt          --- Fig 6.4(c), 200 x 200 pixels of experimental real-space phase, 1 pixel = 0.0325 um, normalised between -pi and pi radians
6.4d.txt          --- Fig 6.4(d), 200 x 200 pixels of experimental real-space phase, 1 pixel = 0.0325 um, normalised between -pi and pi radians
6.6a.txt          --- Fig 6.6(a), Experimental results only. row1: rotation frequencies, row2: Fraction of vortices
6.10i.txt         --- Fig 6.10(i), Experimental results only. row1: rotation frequencies, row2: Fraction of vortices
7.8a.txt          --- Fig 7.8(a), spatial resolution: 1 pixel = 0.0625 um
7.8b.txt          --- Fig 7.8(b), row1: separation distance values, rows 2 onwards: energy spectrum. Energy resolution 1 pixel = 12.5 ueV
7.8c.txt          --- Fig 7.8(c), spatial resolution: 1 pixel = 0.0625 um
7.8d.txt          --- Fig 7.8(d), row1: separation distance values, rows 2 onwards: energy spectrum. Energy resolution 1 pixel = 12.5 ueV
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♦♦ Information for where to find data for thesis figures which is not included in this dataset: ♦♦

** Figures where data is already available through DOI:10.5258/SOTON/D1268 **
1.9               --> see Fig.1(a) of DOI:10.5258/SOTON/D1268
3.2(a,b,c,d,e)    --> see Fig.1&5 of DOI:10.5258/SOTON/D1268
3.3(a,b,c,d,e)    --> see Fig.2 of DOI:10.5258/SOTON/D1268
3.5(a,b)          --> see Fig.3 of DOI:10.5258/SOTON/D1268
3.6(a,b,c,e)      --> see Fig.4 of DOI:10.5258/SOTON/D1268
3.7(a,b,c,d,e,f)  --> see Fig.9 of DOI:10.5258/SOTON/D1268
3.8               --> see Fig.8 of DOI:10.5258/SOTON/D1268

** Figures where data is already available through DOI:10.5258/SOTON/D2104  **
4.2               --> see Fig.1(d,e) of 10.5258/SOTON/D2104 
4.3               --> see Fig.1(df,g,h,i,j,k) of 10.5258/SOTON/D2104 
4.4(a,b,c)        --> see Fig.7 of 10.5258/SOTON/D2104 
4.7(a-j)          --> see Fig.4(b-f,h-l) of 10.5258/SOTON/D2104   
4.8(a,c)          --> see Fig.5(a,c) of 10.5258/SOTON/D2104 
4.9(f)            --> see Fig.6(f) of 10.5258/SOTON/D2104 
4.10(a-e)         --> see Fig.8(a-e) of 10.5258/SOTON/D2104