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- C:\Users\ploemker\AppData\Local\Programs\Python\Python37\python.exe "C:/Users/ploemker/My Documents/Beamtime/2019-03 Co+steps FT Synthesis/beamtime/analysis/das/peak_fitting/testing"
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- [[Fit Statistics]]
- # fitting method = leastsq
- # function evals = 14125
- # data points = 644
- # variables = 26
- chi-square = 86440652.7
- reduced chi-square = 139871.606
- Akaike info crit = 7655.88182
- Bayesian info crit = 7772.04199
- [[Variables]]
- l0_intercept: -39990.5419 +/- 4113.26277 (10.29%) (init = 3000)
- l0_slope: 79.3708287 +/- 7.67343868 (9.67%) (init = 0)
- p0_sigma: 0.2 (fixed)
- p0_center: 529.842532 +/- 0.00749584 (0.00%) (init = 530)
- p0_amplitude: 16224.8931 +/- 906.279781 (5.59%) (init = 1000)
- p0_gamma: 0.30306998 +/- 0.01845210 (6.09%) (init = 0.2)
- p0_fwhm: 0.87302638 +/- 0.02855463 (3.27%) == '1.0692*p0_gamma+sqrt(0.8664*p0_gamma**2+5.545083*p0_sigma**2)'
- p0_height: 13230.6055 +/- 317.528719 (2.40%) == '(p0_amplitude/(p0_sigma*sqrt(2*pi)))*wofz((1j*p0_gamma)/(p0_sigma*sqrt(2))).real'
- p1_sigma: 0.2 (fixed)
- p1_center: 531.156500 +/- 0.06782545 (0.01%) (init = 531.5)
- p1_amplitude: 15545.6948 +/- 3794.48153 (24.41%) (init = 1000)
- p1_gamma: 0.94222097 +/- 0.15180973 (16.11%) (init = 0.2)
- p1_fwhm: 2.00290055 +/- 0.28680631 (14.32%) == '1.0692*p1_gamma+sqrt(0.8664*p1_gamma**2+5.545083*p1_sigma**2)'
- p1_height: 5041.58974 +/- 538.236695 (10.68%) == '(p1_amplitude/(p1_sigma*sqrt(2*pi)))*wofz((1j*p1_gamma)/(p1_sigma*sqrt(2))).real'
- p2_sigma: 0.2 (fixed)
- p2_center: 532.467623 +/- 0.06888174 (0.01%) (init = 533)
- p2_amplitude: 15488.7597 +/- 2725.24286 (17.59%) (init = 1000)
- p2_gamma: 1.00000000 +/- 0.05422845 (5.42%) (init = 0.2)
- p2_fwhm: 2.11236984 +/- 0.10302026 (4.88%) == '1.0692*p2_gamma+sqrt(0.8664*p2_gamma**2+5.545083*p2_sigma**2)'
- p2_height: 4752.93701 +/- 1046.12388 (22.01%) == '(p2_amplitude/(p2_sigma*sqrt(2*pi)))*wofz((1j*p2_gamma)/(p2_sigma*sqrt(2))).real'
- l0_1intercept: -29316.0788 +/- 4079.08812 (13.91%) (init = 3000)
- l0_1slope: 58.8368258 +/- 7.61105717 (12.94%) (init = 0)
- p0_1sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p0_sigma'
- p0_1center: 529.842532 +/- 0.00749588 (0.00%) == 'p0_center'
- p0_1amplitude: 5915.08285 +/- 551.178049 (9.32%) (init = 1000)
- p0_1gamma: 0.30306998 +/- 0.01845209 (6.09%) == 'p0_gamma'
- p0_1fwhm: 0.87302638 +/- 0.00000000 (0.00%) == '1.0692*p0_1gamma+sqrt(0.8664*p0_1gamma**2+5.545083*p0_1sigma**2)'
- p0_1height: 4823.46032 +/- 449.458698 (9.32%) == '(p0_1amplitude/(p0_1sigma*sqrt(2*pi)))*wofz((1j*p0_1gamma)/(p0_1sigma*sqrt(2))).real'
- p1_1sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p1_sigma'
- p1_1center: 531.156500 +/- 0.06782544 (0.01%) == 'p1_center'
- p1_1amplitude: 13133.7070 +/- 3243.51006 (24.70%) (init = 1000)
- p1_1gamma: 0.94222097 +/- 0.15180973 (16.11%) == 'p1_gamma'
- p1_1fwhm: 2.00290055 +/- 0.00000000 (0.00%) == '1.0692*p1_1gamma+sqrt(0.8664*p1_1gamma**2+5.545083*p1_1sigma**2)'
- p1_1height: 4259.36332 +/- 1051.89553 (24.70%) == '(p1_1amplitude/(p1_1sigma*sqrt(2*pi)))*wofz((1j*p1_1gamma)/(p1_1sigma*sqrt(2))).real'
- p2_1sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p2_sigma'
- p2_1center: 532.467623 +/- 0.06888174 (0.01%) == 'p2_center'
- p2_1amplitude: 16049.8350 +/- 2491.54062 (15.52%) (init = 1000)
- p2_1gamma: 1.00000000 +/- 0.05422845 (5.42%) == 'p2_gamma'
- p2_1fwhm: 2.11236984 +/- 0.00000000 (0.00%) == '1.0692*p2_1gamma+sqrt(0.8664*p2_1gamma**2+5.545083*p2_1sigma**2)'
- p2_1height: 4925.11063 +/- 764.563192 (15.52%) == '(p2_1amplitude/(p2_1sigma*sqrt(2*pi)))*wofz((1j*p2_1gamma)/(p2_1sigma*sqrt(2))).real'
- l0_2intercept: -12351.2343 +/- 3767.84881 (30.51%) (init = 3000)
- l0_2slope: 25.5320240 +/- 7.04266657 (27.58%) (init = 0)
- p0_2sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p0_sigma'
- p0_2center: 529.842532 +/- 0.00749588 (0.00%) == 'p0_center'
- p0_2amplitude: 451.217903 +/- 274.665671 (60.87%) (init = 1000)
- p0_2gamma: 0.30306998 +/- 0.01845209 (6.09%) == 'p0_gamma'
- p0_2fwhm: 0.87302638 +/- 0.00000000 (0.00%) == '1.0692*p0_2gamma+sqrt(0.8664*p0_2gamma**2+5.545083*p0_2sigma**2)'
- p0_2height: 367.946097 +/- 223.976401 (60.87%) == '(p0_2amplitude/(p0_2sigma*sqrt(2*pi)))*wofz((1j*p0_2gamma)/(p0_2sigma*sqrt(2))).real'
- p1_2sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p1_sigma'
- p1_2center: 531.156500 +/- 0.06782544 (0.01%) == 'p1_center'
- p1_2amplitude: 6058.07775 +/- 1644.59057 (27.15%) (init = 1000)
- p1_2gamma: 0.94222097 +/- 0.15180973 (16.11%) == 'p1_gamma'
- p1_2fwhm: 2.00290055 +/- 0.00000000 (0.00%) == '1.0692*p1_2gamma+sqrt(0.8664*p1_2gamma**2+5.545083*p1_2sigma**2)'
- p1_2height: 1964.68173 +/- 533.353514 (27.15%) == '(p1_2amplitude/(p1_2sigma*sqrt(2*pi)))*wofz((1j*p1_2gamma)/(p1_2sigma*sqrt(2))).real'
- p2_2sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p2_sigma'
- p2_2center: 532.467623 +/- 0.06888174 (0.01%) == 'p2_center'
- p2_2amplitude: 9692.36055 +/- 1373.92953 (14.18%) (init = 1000)
- p2_2gamma: 1.00000000 +/- 0.05422845 (5.42%) == 'p2_gamma'
- p2_2fwhm: 2.11236984 +/- 0.00000000 (0.00%) == '1.0692*p2_2gamma+sqrt(0.8664*p2_2gamma**2+5.545083*p2_2sigma**2)'
- p2_2height: 2974.23294 +/- 421.609004 (14.18%) == '(p2_2amplitude/(p2_2sigma*sqrt(2*pi)))*wofz((1j*p2_2gamma)/(p2_2sigma*sqrt(2))).real'
- l0_3intercept: -3179.22561 +/- 3705.07011 (116.54%) (init = 3000)
- l0_3slope: 7.59783434 +/- 6.92805544 (91.18%) (init = 0)
- p0_3sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p0_sigma'
- p0_3center: 529.842532 +/- 0.00749588 (0.00%) == 'p0_center'
- p0_3amplitude: -8.89743669 +/- 240.738994 (2705.71%) (init = 1000)
- p0_3gamma: 0.30306998 +/- 0.01845209 (6.09%) == 'p0_gamma'
- p0_3fwhm: 0.87302638 +/- 0.00000000 (0.00%) == '1.0692*p0_3gamma+sqrt(0.8664*p0_3gamma**2+5.545083*p0_3sigma**2)'
- p0_3height: -7.25542379 +/- 196.310856 (2705.71%) == '(p0_3amplitude/(p0_3sigma*sqrt(2*pi)))*wofz((1j*p0_3gamma)/(p0_3sigma*sqrt(2))).real'
- p1_3sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p1_sigma'
- p1_3center: 531.156500 +/- 0.06782544 (0.01%) == 'p1_center'
- p1_3amplitude: 4126.07883 +/- 1254.52641 (30.40%) (init = 1000)
- p1_3gamma: 0.94222097 +/- 0.15180973 (16.11%) == 'p1_gamma'
- p1_3fwhm: 2.00290055 +/- 0.00000000 (0.00%) == '1.0692*p1_3gamma+sqrt(0.8664*p1_3gamma**2+5.545083*p1_3sigma**2)'
- p1_3height: 1338.11946 +/- 406.852668 (30.40%) == '(p1_3amplitude/(p1_3sigma*sqrt(2*pi)))*wofz((1j*p1_3gamma)/(p1_3sigma*sqrt(2))).real'
- p2_3sigma: 0.20000000 +/- 0.00000000 (0.00%) == 'p2_sigma'
- p2_3center: 532.467623 +/- 0.06888174 (0.01%) == 'p2_center'
- p2_3amplitude: 8200.59720 +/- 1105.84239 (13.48%) (init = 1000)
- p2_3gamma: 1.00000000 +/- 0.05422845 (5.42%) == 'p2_gamma'
- p2_3fwhm: 2.11236984 +/- 0.00000000 (0.00%) == '1.0692*p2_3gamma+sqrt(0.8664*p2_3gamma**2+5.545083*p2_3sigma**2)'
- p2_3height: 2516.46502 +/- 339.342811 (13.48%) == '(p2_3amplitude/(p2_3sigma*sqrt(2*pi)))*wofz((1j*p2_3gamma)/(p2_3sigma*sqrt(2))).real'
- [[Correlations]] (unreported correlations are < 0.100)
- C(l0_3intercept, l0_3slope) = -1.000
- C(l0_2intercept, l0_2slope) = -1.000
- C(l0_intercept, l0_slope) = -1.000
- C(l0_1intercept, l0_1slope) = -1.000
- C(p1_amplitude, p1_1amplitude) = 0.978
- C(p1_amplitude, p1_gamma) = 0.967
- C(p2_amplitude, p2_1amplitude) = 0.966
- C(p1_gamma, p1_1amplitude) = 0.953
- C(p1_1amplitude, p1_2amplitude) = 0.944
- C(p2_amplitude, p1_1amplitude) = -0.941
- C(p1_amplitude, p1_2amplitude) = 0.938
- C(p1_amplitude, p2_amplitude) = -0.937
- C(p1_1amplitude, p2_1amplitude) = -0.937
- C(p0_amplitude, p0_gamma) = 0.926
- C(p2_1amplitude, p2_2amplitude) = 0.924
- C(p2_amplitude, p1_2amplitude) = -0.924
- C(p2_amplitude, p2_2amplitude) = 0.921
- C(p2_center, p2_1amplitude) = -0.920
- C(p1_2amplitude, p2_2amplitude) = -0.914
- C(p2_1amplitude, p1_2amplitude) = -0.910
- C(p2_center, p2_amplitude) = -0.909
- C(p1_1amplitude, p1_3amplitude) = 0.909
- C(p1_gamma, p1_2amplitude) = 0.902
- C(p1_amplitude, p2_1amplitude) = -0.900
- C(p1_amplitude, p1_3amplitude) = 0.900
- C(p2_amplitude, p1_3amplitude) = -0.900
- C(p1_3amplitude, p2_3amplitude) = -0.894
- C(p2_center, p2_2amplitude) = -0.889
- C(p2_1amplitude, p2_3amplitude) = 0.889
- C(p2_1amplitude, p1_3amplitude) = -0.888
- C(p0_amplitude, p0_1amplitude) = 0.886
- C(p1_2amplitude, p1_3amplitude) = 0.885
- C(p2_amplitude, p2_3amplitude) = 0.883
- C(p1_1amplitude, p2_2amplitude) = -0.864
- C(p2_gamma, p2_1amplitude) = -0.861
- C(p2_center, p2_3amplitude) = -0.861
- C(p1_gamma, p1_3amplitude) = 0.856
- C(p2_2amplitude, p2_3amplitude) = 0.856
- C(p1_gamma, p2_amplitude) = -0.853
- C(p2_gamma, p2_2amplitude) = -0.848
- C(p1_amplitude, p2_2amplitude) = -0.840
- C(p2_center, p1_2amplitude) = 0.840
- C(p2_2amplitude, p1_3amplitude) = -0.840
- C(p1_center, p2_center) = 0.839
- C(p2_amplitude, p2_gamma) = -0.839
- C(p2_center, p1_1amplitude) = 0.833
- C(p2_gamma, p2_3amplitude) = -0.833
- C(p2_center, p1_3amplitude) = 0.831
- C(p2_center, p2_gamma) = 0.827
- C(p0_gamma, p0_1amplitude) = 0.824
- C(p1_1amplitude, p2_3amplitude) = -0.821
- C(p1_gamma, p2_1amplitude) = -0.820
- C(p1_2amplitude, p2_3amplitude) = -0.817
- C(p1_gamma, p0_1amplitude) = -0.814
- C(p1_amplitude, p2_center) = 0.798
- C(p1_center, p2_1amplitude) = -0.797
- C(p1_amplitude, p2_3amplitude) = -0.797
- C(p0_amplitude, p1_gamma) = -0.793
- C(p1_center, p2_amplitude) = -0.781
- C(p1_center, p2_2amplitude) = -0.769
- C(p1_amplitude, p0_1amplitude) = -0.768
- C(p0_amplitude, p1_amplitude) = -0.766
- C(p1_gamma, p2_2amplitude) = -0.754
- C(p0_1amplitude, p1_1amplitude) = -0.745
- C(p1_center, p2_3amplitude) = -0.739
- C(p2_gamma, p1_2amplitude) = 0.719
- C(p2_gamma, p1_3amplitude) = 0.717
- C(p1_gamma, p2_3amplitude) = -0.708
- C(p2_gamma, p1_1amplitude) = 0.708
- C(p0_amplitude, p1_1amplitude) = -0.703
- C(p1_center, p1_2amplitude) = 0.686
- C(p1_center, p1_3amplitude) = 0.682
- C(p1_amplitude, p2_gamma) = 0.675
- C(p1_gamma, p2_center) = 0.673
- C(p1_center, p1_1amplitude) = 0.668
- C(p0_1amplitude, p1_2amplitude) = -0.661
- C(p1_center, p2_gamma) = 0.651
- C(p0_gamma, p1_gamma) = -0.645
- C(p0_amplitude, p1_2amplitude) = -0.635
- C(p0_gamma, p1_amplitude) = -0.634
- C(p1_center, p1_amplitude) = 0.621
- C(p0_1amplitude, p1_3amplitude) = -0.616
- C(p1_gamma, p0_2amplitude) = -0.596
- C(p0_amplitude, p1_3amplitude) = -0.589
- C(p2_amplitude, p0_1amplitude) = 0.583
- C(p0_2amplitude, p1_2amplitude) = -0.577
- C(p0_amplitude, p0_2amplitude) = 0.576
- C(p0_gamma, p1_1amplitude) = -0.574
- C(p0_1amplitude, p0_2amplitude) = 0.573
- C(p0_amplitude, p2_amplitude) = 0.570
- C(p1_amplitude, p0_2amplitude) = -0.560
- C(p0_1amplitude, p2_1amplitude) = 0.557
- C(p1_gamma, p2_gamma) = 0.543
- C(p1_1amplitude, p0_2amplitude) = -0.537
- C(p1_center, p1_gamma) = 0.522
- C(p0_amplitude, p2_1amplitude) = 0.509
- C(p0_gamma, p1_2amplitude) = -0.508
- C(p0_gamma, p0_2amplitude) = 0.497
- C(p0_3amplitude, p1_3amplitude) = -0.481
- C(p0_1amplitude, p2_2amplitude) = 0.480
- C(p0_center, p0_amplitude) = 0.472
- C(p0_gamma, p1_3amplitude) = -0.469
- C(p0_2amplitude, p1_3amplitude) = -0.466
- C(p0_gamma, p2_amplitude) = 0.454
- C(p1_gamma, p0_3amplitude) = -0.450
- C(p0_center, p0_gamma) = 0.450
- C(p0_amplitude, p2_2amplitude) = 0.449
- C(p0_1amplitude, p2_3amplitude) = 0.445
- C(p0_2amplitude, p2_2amplitude) = 0.444
- C(p2_amplitude, p0_2amplitude) = 0.442
- C(p1_gamma, l0_1intercept) = -0.439
- C(p1_gamma, l0_1slope) = 0.435
- C(l0_1intercept, p1_1amplitude) = -0.433
- C(p0_center, p0_1amplitude) = 0.431
- C(l0_1slope, p1_1amplitude) = 0.430
- C(p1_amplitude, p0_3amplitude) = -0.426
- C(p0_1amplitude, p0_3amplitude) = 0.418
- C(p0_amplitude, p2_3amplitude) = 0.416
- C(p1_amplitude, l0_1intercept) = -0.415
- C(p0_amplitude, p0_3amplitude) = 0.415
- C(p2_1amplitude, p0_2amplitude) = 0.415
- C(p1_amplitude, l0_1slope) = 0.412
- C(p1_1amplitude, p0_3amplitude) = -0.411
- C(p0_gamma, p2_1amplitude) = 0.402
- C(l0_intercept, p1_gamma) = -0.393
- C(l0_slope, p1_gamma) = 0.389
- C(l0_1intercept, p1_2amplitude) = -0.387
- C(l0_intercept, p1_amplitude) = -0.386
- C(l0_1slope, p1_2amplitude) = 0.384
- C(p2_center, p0_1amplitude) = -0.384
- C(p1_2amplitude, p0_3amplitude) = -0.383
- C(l0_slope, p1_amplitude) = 0.383
- C(p0_3amplitude, p2_3amplitude) = 0.375
- C(l0_intercept, p1_1amplitude) = -0.368
- C(l0_1intercept, p1_3amplitude) = -0.366
- C(l0_slope, p1_1amplitude) = 0.365
- C(l0_1slope, p1_3amplitude) = 0.364
- C(p2_amplitude, l0_1intercept) = 0.357
- C(p2_amplitude, l0_1slope) = -0.355
- C(l0_intercept, p1_2amplitude) = -0.353
- C(p0_amplitude, p2_center) = -0.350
- C(l0_slope, p1_2amplitude) = 0.350
- C(p0_2amplitude, p2_3amplitude) = 0.349
- C(p0_gamma, p0_3amplitude) = 0.348
- C(p0_gamma, p2_2amplitude) = 0.348
- C(p2_amplitude, p0_3amplitude) = 0.344
- C(l0_1intercept, p2_1amplitude) = 0.340
- C(l0_1slope, p2_1amplitude) = -0.340
- C(l0_intercept, p1_3amplitude) = -0.335
- C(l0_slope, p1_3amplitude) = 0.333
- C(p0_amplitude, l0_1intercept) = 0.332
- C(p0_amplitude, l0_1slope) = -0.328
- C(p2_1amplitude, p0_3amplitude) = 0.325
- C(p2_gamma, p0_1amplitude) = -0.325
- C(l0_intercept, p2_amplitude) = 0.323
- C(l0_slope, p2_amplitude) = -0.322
- C(p0_gamma, p2_3amplitude) = 0.321
- C(l0_intercept, p2_1amplitude) = 0.318
- C(l0_slope, p2_1amplitude) = -0.317
- C(l0_1intercept, p2_2amplitude) = 0.315
- C(l0_1slope, p2_2amplitude) = -0.314
- C(p2_center, p0_2amplitude) = -0.312
- C(p0_amplitude, p2_gamma) = -0.302
- C(p0_2amplitude, p0_3amplitude) = 0.298
- C(p2_2amplitude, p0_3amplitude) = 0.296
- C(l0_intercept, p2_2amplitude) = 0.296
- C(l0_1intercept, p2_3amplitude) = 0.295
- C(l0_slope, p2_2amplitude) = -0.295
- C(l0_1slope, p2_3amplitude) = -0.294
- C(l0_1intercept, p0_1amplitude) = 0.280
- C(l0_intercept, p2_3amplitude) = 0.277
- C(l0_slope, p2_3amplitude) = -0.277
- C(l0_1slope, p0_1amplitude) = -0.276
- C(p2_center, l0_1intercept) = -0.274
- C(p2_center, l0_1slope) = 0.273
- C(l0_2intercept, p1_2amplitude) = -0.273
- C(p0_center, p1_gamma) = -0.272
- C(l0_2slope, p1_2amplitude) = 0.270
- C(p0_center, p0_2amplitude) = 0.267
- C(l0_1intercept, p0_2amplitude) = 0.266
- C(p0_center, p1_amplitude) = -0.264
- C(p0_gamma, p2_center) = -0.264
- C(l0_1slope, p0_2amplitude) = -0.263
- C(l0_intercept, p0_1amplitude) = 0.262
- C(l0_intercept, p2_center) = -0.262
- C(l0_slope, p2_center) = 0.261
- C(p2_gamma, p0_2amplitude) = -0.259
- C(l0_slope, p0_1amplitude) = -0.259
- C(p2_center, p0_3amplitude) = -0.254
- C(p1_gamma, l0_2intercept) = -0.254
- C(p1_gamma, l0_2slope) = 0.251
- C(p0_gamma, l0_1intercept) = 0.244
- C(p1_amplitude, l0_2intercept) = -0.241
- C(p0_gamma, l0_1slope) = -0.241
- C(p1_amplitude, l0_2slope) = 0.239
- C(p0_gamma, p2_gamma) = -0.238
- C(p1_1amplitude, l0_2intercept) = -0.236
- C(p1_1amplitude, l0_2slope) = 0.234
- C(p0_center, p1_center) = 0.230
- C(p2_gamma, l0_1slope) = 0.224
- C(p2_gamma, l0_1intercept) = -0.222
- C(l0_intercept, p0_2amplitude) = 0.222
- C(l0_slope, p0_2amplitude) = -0.219
- C(l0_intercept, p1_center) = -0.218
- C(l0_3intercept, p1_3amplitude) = -0.218
- C(l0_slope, p1_center) = 0.218
- C(p0_1amplitude, l0_2intercept) = 0.217
- C(l0_3slope, p1_3amplitude) = 0.216
- C(p0_1amplitude, l0_2slope) = -0.214
- C(p0_center, p1_1amplitude) = -0.212
- C(p0_amplitude, l0_2intercept) = 0.212
- C(l0_slope, p2_gamma) = 0.210
- C(p0_amplitude, l0_2slope) = -0.209
- C(l0_2intercept, p1_3amplitude) = -0.209
- C(p2_gamma, p0_3amplitude) = -0.209
- C(l0_intercept, p2_gamma) = -0.208
- C(l0_2slope, p1_3amplitude) = 0.208
- C(p2_amplitude, l0_2intercept) = 0.205
- C(p2_amplitude, l0_2slope) = -0.204
- C(l0_1intercept, p0_3amplitude) = 0.202
- C(l0_1slope, p0_3amplitude) = -0.200
- C(p1_center, l0_1intercept) = -0.200
- C(p1_center, l0_1slope) = 0.200
- C(p2_1amplitude, l0_2intercept) = 0.195
- C(p2_1amplitude, l0_2slope) = -0.195
- C(l0_intercept, l0_1intercept) = 0.194
- C(l0_intercept, l0_1slope) = -0.193
- C(l0_slope, l0_1intercept) = -0.192
- C(l0_slope, l0_1slope) = 0.191
- C(p0_center, p0_3amplitude) = 0.187
- C(p1_gamma, l0_3intercept) = -0.181
- C(p1_gamma, l0_3slope) = 0.180
- C(l0_intercept, p0_amplitude) = 0.177
- C(l0_2slope, p2_2amplitude) = -0.174
- C(l0_intercept, p0_3amplitude) = 0.174
- C(l0_slope, p0_amplitude) = -0.174
- C(l0_2intercept, p2_2amplitude) = 0.174
- C(p1_amplitude, l0_3intercept) = -0.173
- C(p0_gamma, l0_2intercept) = 0.172
- C(l0_slope, p0_3amplitude) = -0.172
- C(p1_amplitude, l0_3slope) = 0.172
- C(p0_gamma, l0_2slope) = -0.170
- C(p1_1amplitude, l0_3intercept) = -0.169
- C(p1_1amplitude, l0_3slope) = 0.168
- C(l0_2intercept, p2_3amplitude) = 0.167
- C(l0_2slope, p2_3amplitude) = -0.167
- C(p0_center, p1_2amplitude) = -0.165
- C(p1_2amplitude, l0_3intercept) = -0.159
- C(p1_2amplitude, l0_3slope) = 0.158
- C(p0_1amplitude, l0_3intercept) = 0.156
- C(p0_1amplitude, l0_3slope) = -0.155
- C(p2_center, l0_2intercept) = -0.154
- C(p2_center, l0_2slope) = 0.154
- C(p0_amplitude, l0_3intercept) = 0.154
- C(p0_center, l0_1intercept) = 0.153
- C(p0_amplitude, l0_3slope) = -0.152
- C(p0_center, l0_1slope) = -0.151
- C(l0_intercept, p0_center) = 0.148
- C(p2_amplitude, l0_3intercept) = 0.147
- C(p2_amplitude, l0_3slope) = -0.146
- C(l0_slope, p0_center) = -0.146
- C(p0_center, p1_3amplitude) = -0.143
- C(p2_1amplitude, l0_3intercept) = 0.140
- C(p2_1amplitude, l0_3slope) = -0.140
- C(p1_center, p0_2amplitude) = -0.136
- C(p2_2amplitude, l0_3intercept) = 0.128
- C(p2_2amplitude, l0_3slope) = -0.128
- C(p2_gamma, l0_2slope) = 0.128
- C(p0_gamma, l0_3intercept) = 0.127
- C(p2_gamma, l0_2intercept) = -0.126
- C(p0_gamma, l0_3slope) = -0.125
- C(p1_center, p0_3amplitude) = -0.125
- C(l0_2intercept, p0_3amplitude) = 0.118
- C(l0_2slope, p0_3amplitude) = -0.117
- C(p1_center, p0_1amplitude) = -0.116
- C(l0_3slope, p2_3amplitude) = -0.115
- C(l0_3intercept, p2_3amplitude) = 0.113
- C(p0_center, p2_amplitude) = 0.113
- C(l0_1intercept, l0_2intercept) = 0.113
- C(p0_2amplitude, l0_3intercept) = 0.113
- C(l0_1slope, l0_2intercept) = -0.112
- C(l0_1intercept, l0_2slope) = -0.112
- C(p0_2amplitude, l0_3slope) = -0.112
- C(l0_1slope, l0_2slope) = 0.111
- C(p2_center, l0_3intercept) = -0.111
- C(p2_center, l0_3slope) = 0.110
- C(p1_center, l0_2intercept) = -0.105
- C(p1_center, l0_2slope) = 0.105
- C(l0_intercept, l0_2intercept) = 0.101
- Process finished with exit code 0
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