13 – 571

This page contains computed data for the graphs \(\Gamma_1(\cdot;13)\) through \(\Gamma_1(\cdot;571)\). You can read about the displayed information in the glossary.

13 / 17 / 19 / 23 / 29 / 31 / 37 / 41 / 43 / 47 / 53 / 59 / 61 / 67 / 71 / 73 / 79 / 83 / 89 / 97 / 101 / 103 / 107 / 109 / 113 / 127 / 131 / 137 / 139 / 149 / 151 / 157 / 163 / 167 / 173 / 179 / 181 / 191 / 193 / 197 / 199 / 211 / 223 / 227 / 229 / 233 / 239 / 241 / 251 / 257 / 263 / 269 / 271 / 277 / 281 / 283 / 293 / 307 / 311 / 313 / 317 / 331 / 337 / 347 / 349 / 353 / 359 / 367 / 373 / 379 / 383 / 389 / 397 / 401 / 409 / 419 / 421 / 431 / 433 / 439 / 443 / 449 / 457 / 461 / 463 / 467 / 479 / 487 / 491 / 499 / 503 / 509 / 521 / 523 / 541 / 547 / 557 / 563 / 569 / 571 /

p = 13

1 nodes 1 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 0 0 NaN NaN
3 0 0 NaN NaN
5 0 0 NaN NaN
7 0 0 NaN NaN
11 0 0 NaN NaN
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p = 17

2 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 1 0 NaN NaN
3 1 0 NaN NaN
5 1 0 NaN NaN
7 1 0 NaN NaN
11 1 0 NaN NaN
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p = 19

2 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 1 0 NaN NaN
3 1 0 NaN NaN
5 1 0 NaN NaN
7 1 0 NaN NaN
11 1 0 NaN NaN
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p = 23

3 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 2 0 NaN NaN
3 2 0 NaN NaN
5 2 0 NaN NaN
7 2 0 NaN NaN
11 1 0 NaN NaN
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p = 29

3 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 2 0 NaN NaN
3 2 0 NaN NaN
5 1 0 NaN NaN
7 2 0 NaN NaN
11 1 0 NaN NaN
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p = 31

3 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 2 0 NaN NaN
3 2 0 NaN NaN
5 1 0 NaN NaN
7 1 0 NaN NaN
11 1 0 NaN NaN
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p = 37

3 nodes 1 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 1 1 NaN NaN
3 1 1 NaN NaN
5 1 1 NaN NaN
7 1 1 NaN NaN
11 1 1 NaN NaN
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p = 41

4 nodes 4 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 0 1.9032 -2.7093
3 2 0 1.6751 -2.2143
5 2 0 1.7093 -2.9032
7 2 0 4.2143 0.3249
11 2 0 3.8010 -4.6375
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p = 43

4 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 2 1 1.4142 -2.0000
3 2 1 1.4142 -2.0000
5 2 1 3.4142 -4.0000
7 1 1 0.0000 -3.4142
11 1 1 3.0000 -3.8284
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p = 47

5 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 0 2.3089 -2.2661
3 3 0 2.2393 -2.8758
5 3 0 3.1528 -4.2535
7 2 0 3.2124 -3.3113
11 2 0 3.0462 -4.8826
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p = 53

5 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 1 1.4812 -2.1701
3 3 1 3.2143 -3.0000
5 2 1 1.7093 -2.9032
7 2 1 3.7093 -4.0000
11 2 1 2.1563 -3.5254
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p = 59

6 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 4 0 2.4693 -2.6571
3 3 0 2.3766 -2.9072
5 3 0 3.7287 -3.4794
7 2 0 2.7357 -4.0719
11 2 0 3.8754 -4.6375
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p = 61

5 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 1 2.1701 -1.4812
3 3 1 2.9032 -2.0000
5 2 1 3.1563 -3.0000
7 1 1 1.0000 -3.2143
11 1 1 6.1701 -5.0000
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p = 67

6 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 2 2.0000 -2.6180
3 2 2 1.6180 -2.6180
5 3 2 4.2361 -3.0000
7 2 2 2.8541 -3.8541
11 2 2 2.2361 -4.0000
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p = 71

7 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 0 1.9122 -2.4909
3 3 0 2.5688 -3.2044
5 3 0 3.7773 -2.8342
7 3 0 4.3974 -3.8245
11 2 0 3.8245 -4.9817
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p = 73

6 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 2 2.3028 -2.6180
3 2 2 2.3028 -2.6180
5 2 2 2.0000 -2.6180
7 1 2 2.0000 -3.0000
11 2 2 5.3028 -2.6180
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p = 79

7 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 1 2.0541 -1.9216
3 4 1 3.3565 -2.8880
5 2 1 3.7863 -3.0000
7 2 1 3.2977 -4.1647
11 2 1 5.9578 -5.0227
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p = 83

8 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 1 2.6236 -2.2902
3 4 1 2.7673 -2.0494
5 3 1 4.0506 -3.4737
7 2 1 3.6101 -3.4653
11 2 0 4.9241 -4.0407
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p = 89

8 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 1 2.6934 -2.4773
3 3 1 2.3453 -2.7594
5 3 1 3.4436 -3.2546
7 3 1 5.1750 -4.0000
11 2 1 5.8255 -4.0725
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p = 97

8 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 4 3 2.5085 -2.8019
3 2 3 2.1439 -2.8019
5 2 3 2.3623 -4.0489
7 2 3 3.0649 -3.8019
11 2 3 5.3938 -3.8019
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p = 101

9 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 0 2.7201 -2.7626
3 4 1 3.0112 -2.4399
5 2 1 2.6451 -3.6843
7 2 1 3.5337 -4.7006
11 2 1 4.7963 -2.4932
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p = 103

9 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 2 2.7821 -2.6180
3 4 2 3.0136 -2.7752
5 3 2 3.0683 -3.1586
7 2 2 3.2500 -3.9647
11 2 2 4.8232 -4.1712
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p = 107

10 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 1 2.2176 -2.5105
3 4 2 3.0669 -2.6180
5 3 2 4.3199 -3.1037
7 3 2 4.4569 -4.9064
11 2 1 5.3464 -4.4842
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p = 109

9 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 3 2 2.0472 -2.2470
3 3 3 2.8486 -2.8019
5 2 3 3.0000 -3.6920
7 2 2 2.9905 -4.8509
11 2 3 6.1750 -5.8019
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p = 113

10 nodes 4 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 4 2 2.1819 -2.5884
3 3 3 2.7321 -3.2470
5 3 2 3.4641 -3.4940
7 3 3 5.0541 -4.8019
11 2 2 5.2959 -5.4641
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p = 127

11 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 4 2 2.4161 -2.5321
3 3 2 2.9863 -2.6423
5 3 3 3.7327 -3.5321
7 2 2 3.3548 -4.1337
11 2 2 5.3234 -4.3658
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p = 131

12 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 0 2.5739 -2.7759
3 4 1 3.0459 -3.3178
5 4 1 4.2436 -3.9476
7 3 1 4.5336 -4.3427
11 2 1 4.9361 -4.1142
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p = 137

12 nodes 4 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 3 2.2571 -2.4425
3 4 3 3.0038 -2.7722
5 3 2 3.4296 -3.7931
7 3 4 5.1585 -5.0953
11 3 2 6.0864 -6.4033
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p = 139

12 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 2 2.4798 -2.4832
3 4 2 3.1542 -3.0553
5 3 3 3.9765 -4.2470
7 3 2 4.1678 -3.6778
11 2 3 5.0193 -5.6539
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p = 149

13 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 1 2.3710 -2.7541
3 4 3 3.2583 -2.8019
5 3 2 2.7783 -4.1571
7 3 3 4.5803 -5.1765
11 3 3 4.5727 -6.2959
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p = 151

13 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 4 2 2.3484 -2.4909
3 4 1 3.2303 -3.2947
5 3 3 3.7773 -3.8019
7 3 3 4.0794 -4.7745
11 2 3 4.2621 -5.4811
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p = 157

13 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 4 2.7654 -2.6965
3 4 5 3.1750 -3.1388
5 3 3 3.4915 -3.5725
7 2 4 2.9931 -4.3935
11 2 5 5.2589 -5.2863
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p = 163

14 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 4 4 2.3480 -2.7113
3 3 4 2.4968 -3.2490
5 3 6 3.5701 -4.4160
7 2 4 4.3201 -4.7735
11 2 5 5.1339 -6.0000
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p = 167

15 nodes 11 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 1 2.6393 -2.5489
3 5 1 3.3646 -3.1060
5 4 2 4.2069 -3.6282
7 3 2 4.8062 -4.4603
11 3 1 6.0233 -5.7128
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p = 173

15 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 1 2.6067 -2.7303
3 4 4 3.3505 -3.1935
5 3 2 3.1429 -3.9788
7 3 4 4.3333 -4.0953
11 2 3 5.5418 -4.6920
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p = 179

16 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 1 2.6025 -2.7257
3 5 2 3.1075 -3.2026
5 4 3 4.3345 -2.9358
7 3 3 4.6398 -4.5900
11 2 2 4.2965 -5.8611
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p = 181

15 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 3 2.6988 -2.3523
3 4 4 3.0945 -2.9600
5 3 3 3.4606 -4.0421
7 2 3 4.6789 -4.1903
11 2 5 5.5435 -5.8529
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p = 191

17 nodes 13 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 1 2.7089 -2.6816
3 5 2 3.2288 -3.1998
5 3 1 3.3870 -3.9604
7 3 1 4.6989 -5.1384
11 3 1 6.2112 -5.9107
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p = 193

16 nodes 2 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 4 2.5099 -2.6180
3 3 5 2.8817 -3.2184
5 3 6 4.1698 -3.6622
7 3 6 4.1447 -4.6869
11 2 6 4.8541 -5.7435
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p = 197

17 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 2 2.2710 -2.6291
3 5 5 3.4122 -3.3519
5 3 4 3.3719 -3.9564
7 3 6 5.0183 -4.2416
11 2 5 4.0000 -6.0178
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p = 199

17 nodes 9 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 3 2.6267 -2.4248
3 5 2 3.3645 -3.3007
5 3 3 3.3974 -3.5934
7 3 2 4.2160 -5.1672
11 2 4 6.1207 -5.2361
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p = 211

18 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 2 2.5097 -2.6763
3 4 4 3.0655 -3.1284
5 3 6 4.2549 -4.3234
7 3 3 4.8162 -4.3407
11 2 5 5.8022 -4.9608
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p = 223

19 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 5 2.7282 -2.7640
3 4 2 2.9254 -3.4044
5 4 6 4.3028 -3.4192
7 3 5 4.8102 -4.5060
11 2 5 6.3347 -5.1888
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p = 227

20 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 2 2.6237 -2.7319
3 5 3 3.0195 -3.1926
5 4 4 3.9309 -4.1866
7 3 4 4.6180 -4.3540
11 3 2 5.3943 -5.2129
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p = 229

19 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 5 2.6467 -2.6059
3 5 4 3.2359 -2.8964
5 3 5 4.1029 -4.3023
7 3 4 4.7760 -3.9642
11 2 7 6.0005 -5.9199
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p = 233

20 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 2 2.4842 -2.5851
3 5 6 3.3665 -3.1662
5 4 4 3.3754 -4.0061
7 3 7 4.9421 -4.3888
11 3 4 6.0000 -4.5655
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p = 239

21 nodes 15 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 1 2.7011 -2.6525
3 5 1 3.1327 -3.3932
5 4 3 4.2440 -3.3771
7 4 3 5.1301 -4.4783
11 3 2 6.0045 -5.1841
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p = 241

20 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 4 2.7006 -2.6036
3 4 3 2.9350 -3.2829
5 3 6 4.3196 -3.8963
7 3 6 5.0614 -4.6139
11 2 7 6.2879 -4.9643
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p = 251

22 nodes 14 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 2 2.8201 -2.6579
3 6 2 3.2706 -3.1458
5 4 2 4.0511 -3.9983
7 3 3 4.6753 -4.3204
11 3 3 6.1549 -6.2997
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p = 257

22 nodes 8 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 3 2.7282 -2.7300
3 5 4 3.0497 -3.2501
5 4 2 3.8262 -4.2582
7 3 7 4.8060 -4.9716
11 3 3 5.7113 -6.2110
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p = 263

23 nodes 13 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 2 2.5026 -2.5708
3 5 4 3.2742 -3.2196
5 4 3 4.1748 -4.2049
7 4 4 5.0277 -4.9535
11 3 1 6.0180 -6.1709
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p = 269

23 nodes 11 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 1 2.7617 -2.6930
3 5 4 3.1280 -3.1246
5 4 3 3.6379 -3.8876
7 3 5 4.7467 -4.7909
11 3 6 5.9596 -5.0308
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p = 271

23 nodes 11 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 4 2.6380 -2.6490
3 5 1 3.3649 -3.4330
5 4 6 4.4255 -4.0486
7 3 3 4.8346 -3.8762
11 3 6 6.5798 -5.8496
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p = 277

23 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 5 4 2.5737 -2.6679
3 5 9 3.4018 -3.2283
5 3 8 3.9038 -3.5954
7 3 6 3.6883 -4.0000
11 2 8 5.4812 -6.1822
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p = 281

24 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 2 2.6215 -2.7889
3 6 4 3.2916 -2.9417
5 3 3 3.9619 -4.0459
7 3 6 4.6107 -4.4618
11 3 5 6.0869 -5.5088
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p = 283

24 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 5 2.6502 -2.7803
3 4 6 2.9839 -3.0877
5 4 8 4.3846 -4.2421
7 3 3 4.8997 -4.5506
11 2 6 6.3030 -5.7957
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p = 293

25 nodes 9 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 3 2.7599 -2.4829
3 5 6 3.2495 -3.2683
5 4 2 4.2817 -3.7326
7 3 6 4.8697 -5.1620
11 3 5 5.5573 -5.5332
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p = 307

26 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 6 2.7114 -2.7350
3 4 4 2.9967 -3.3028
5 4 10 4.0000 -4.3671
7 3 3 4.3028 -5.0678
11 3 9 5.5374 -5.9007
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p = 311

27 nodes 19 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 1 2.7667 -2.6736
3 5 2 3.2522 -3.2376
5 4 1 4.3339 -4.1330
7 3 3 4.6008 -4.7308
11 3 4 6.2256 -6.1392
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p = 313

26 nodes 4 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 7 2.7786 -2.7741
3 4 7 3.0756 -3.3663
5 3 6 4.2190 -3.7185
7 3 9 4.0653 -5.1807
11 2 8 5.4362 -5.9414
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p = 317

27 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 3 2.5570 -2.6615
3 5 8 3.2784 -3.4428
5 4 4 4.2008 -3.8342
7 3 10 4.3093 -5.2181
11 3 9 5.8085 -5.3282
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p = 331

28 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 5 2.6405 -2.6206
3 4 3 3.1257 -3.1768
5 4 11 4.2426 -4.1149
7 3 5 3.8390 -5.0139
11 3 10 6.0940 -5.4844
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p = 337

28 nodes 4 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 5 2.5627 -2.6869
3 5 9 3.3753 -3.2703
5 3 9 4.1795 -3.7225
7 3 9 4.9642 -5.2070
11 2 8 5.9182 -6.2360
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p = 347

30 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 2 2.6146 -2.7470
3 5 6 3.2064 -3.2528
5 4 9 4.1290 -3.7136
7 4 8 4.8061 -4.7395
11 3 3 6.3097 -6.1679
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p = 349

29 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 5 2.7974 -2.6007
3 5 5 3.1222 -3.2999
5 3 7 3.8753 -4.0716
7 3 4 4.8112 -4.7292
11 3 11 6.3118 -5.6527
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p = 353

30 nodes 8 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 5 2.6813 -2.5651
3 5 4 3.1149 -3.2046
5 3 5 3.7409 -4.2749
7 4 11 5.1333 -4.9471
11 3 4 5.7131 -6.2984
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p = 359

31 nodes 19 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 2 2.7392 -2.7377
3 6 3 3.2228 -3.3379
5 4 3 3.9610 -4.4025
7 3 3 4.7180 -4.9850
11 3 4 6.1786 -6.0129
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p = 367

31 nodes 9 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 7 2.7516 -2.7283
3 5 6 3.2844 -3.3905
5 4 6 3.8188 -4.2408
7 3 6 4.4667 -4.9670
11 3 7 4.8053 -6.0996
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p = 373

31 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 5 2.7024 -2.7698
3 5 11 3.3858 -3.4623
5 3 8 3.9841 -3.8971
7 3 6 4.4179 -5.1142
11 3 9 5.2959 -6.0000
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p = 379

32 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 5 2.6253 -2.7516
3 5 5 3.1749 -3.1097
5 4 12 4.2818 -4.2932
7 3 4 4.4105 -5.1528
11 3 11 5.5475 -5.4083
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p = 383

33 nodes 17 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 4 2.7559 -2.5582
3 5 2 3.0865 -3.2167
5 4 3 4.4175 -4.2536
7 4 7 4.8800 -4.8980
11 3 2 6.2557 -6.2874
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p = 389

33 nodes 11 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 3 2.6732 -2.7761
3 5 8 3.2555 -3.4142
5 4 4 4.3845 -3.9032
7 3 6 4.9866 -5.0000
11 3 7 6.4971 -5.0687
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p = 397

33 nodes 3 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 8 2.7375 -2.8054
3 5 9 3.4142 -3.2805
5 3 8 3.8831 -4.0695
7 3 9 5.1125 -4.7334
11 3 13 5.7896 -6.1348
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p = 401

34 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 3 2.7439 -2.6549
3 6 5 3.1069 -3.0671
5 4 6 3.6302 -4.0945
7 4 11 5.2107 -4.6299
11 3 8 5.7274 -5.1661
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p = 409

34 nodes 8 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 6 2.7587 -2.6987
3 5 3 3.2467 -3.3695
5 3 9 3.9320 -3.8092
7 3 8 4.8089 -5.1613
11 3 12 5.6426 -5.9226
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p = 419

36 nodes 18 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 10 2 2.8237 -2.7155
3 5 4 3.1864 -3.3552
5 4 4 4.1799 -4.1717
7 4 6 5.2175 -5.0064
11 3 5 6.3240 -6.2524
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p = 421

35 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 6 2.5734 -2.6873
3 5 8 3.2280 -3.4178
5 4 9 4.3153 -3.8761
7 3 6 4.2325 -5.0649
11 3 14 6.6269 -5.3922
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p = 431

37 nodes 21 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 1 2.7183 -2.7731
3 6 3 3.3178 -3.2647
5 5 6 4.3348 -4.1921
7 4 5 5.2338 -5.0141
11 3 4 6.0148 -5.2894
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p = 433

36 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 9 9 2.8131 -2.7323
3 5 7 3.1851 -3.2934
5 4 6 4.2133 -4.0000
7 3 11 4.8662 -4.7053
11 3 11 5.4359 -6.4532
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p = 439

37 nodes 15 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 3 2.7703 -2.7855
3 6 3 3.3612 -3.4358
5 4 8 4.3270 -3.7750
7 3 4 4.8689 -5.0129
11 3 10 6.2891 -6.1261
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p = 443

38 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 4 2.5519 -2.7768
3 5 7 3.0932 -3.3006
5 4 8 4.0000 -4.3766
7 3 10 4.7956 -4.4993
11 3 5 5.1436 -6.5406
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p = 449

38 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 3 2.7017 -2.6861
3 5 5 3.0245 -3.1269
5 4 6 3.9558 -4.1537
7 4 13 5.2163 -5.0328
11 3 10 6.5657 -5.7203
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p = 457

38 nodes 4 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 8 2.7859 -2.7592
3 5 9 3.2194 -3.3204
5 3 12 3.8101 -4.2737
7 3 11 5.2679 -5.1735
11 3 9 5.3049 -6.5041
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p = 461

39 nodes 15 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 9 3 2.7935 -2.6882
3 6 5 3.4463 -3.3748
5 4 5 4.0314 -4.2124
7 4 8 4.8115 -4.7143
11 3 10 5.9888 -6.1933
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p = 463

39 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 8 2.7727 -2.8092
3 5 5 3.1121 -3.3006
5 4 12 4.1877 -4.1938
7 4 9 4.2739 -5.0866
11 3 7 5.5205 -6.0661
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p = 467

40 nodes 14 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 5 2.7540 -2.7392
3 6 6 3.1835 -3.1659
5 4 4 3.7671 -4.3172
7 4 9 4.6847 -4.8513
11 3 4 5.8400 -6.0959
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p = 479

41 nodes 25 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 2 2.7068 -2.7472
3 6 3 3.3848 -3.3509
5 5 4 4.1552 -4.2853
7 4 4 5.1882 -4.9759
11 3 5 6.4421 -5.8574
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p = 487

41 nodes 7 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 7 2.7511 -2.7074
3 5 5 3.3028 -3.4419
5 4 14 4.1739 -4.2852
7 3 9 5.1705 -4.5179
11 3 10 5.7317 -6.0659
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p = 491

42 nodes 18 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 2 2.7164 -2.7494
3 6 5 3.3672 -3.4302
5 4 9 4.1412 -3.9585
7 4 5 4.8922 -5.1340
11 3 7 5.3209 -5.8997
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p = 499

42 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 6 2.7006 -2.6531
3 6 5 3.2897 -3.1724
5 4 16 4.4310 -4.2072
7 3 7 4.4594 -4.4972
11 3 13 6.3870 -5.8286
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p = 503

43 nodes 21 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 3 2.7130 -2.7307
3 6 7 3.3452 -3.2558
5 4 3 4.2327 -4.3405
7 4 7 5.0495 -5.2217
11 3 3 6.3627 -5.7460
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p = 509

43 nodes 15 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 9 3 2.7884 -2.7223
3 6 4 3.2573 -3.2730
5 4 5 4.0964 -4.1294
7 4 12 4.6983 -4.5854
11 3 13 6.3764 -5.4629
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p = 521

44 nodes 16 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 2 2.6754 -2.7770
3 6 5 3.3745 -3.2668
5 4 3 4.3111 -4.3389
7 4 12 5.0252 -5.0467
11 3 10 5.9171 -5.5242
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p = 523

44 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 8 2.7581 -2.6921
3 6 6 3.3424 -3.3381
5 4 13 4.4099 -3.9622
7 3 4 4.7214 -5.0386
11 3 9 6.2455 -5.6874
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p = 541

45 nodes 5 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 6 5 2.6286 -2.7637
3 5 11 3.3327 -3.3144
5 4 13 4.1811 -4.1780
7 3 7 4.8218 -4.7693
11 3 19 6.5114 -6.0152
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p = 547

46 nodes 6 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 5 2.6845 -2.7727
3 5 9 3.2452 -3.0901
5 4 18 4.4222 -4.1817
7 3 7 4.9720 -5.0618
11 3 9 6.1079 -6.4315
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p = 557

47 nodes 9 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 7 5 2.5987 -2.7705
3 6 13 3.4351 -3.3808
5 4 6 4.2241 -4.1880
7 4 13 5.0000 -4.4756
11 3 7 6.5632 -6.0000
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p = 563

48 nodes 18 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 4 2.7666 -2.7135
3 6 7 3.3444 -3.2856
5 5 6 4.2689 -4.0000
7 4 7 4.7642 -5.0000
11 3 3 5.8672 -5.8064
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p = 569

48 nodes 16 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 9 3 2.7684 -2.7896
3 6 8 3.2685 -3.3950
5 4 6 4.3215 -3.9499
7 4 11 5.2787 -5.1526
11 3 7 6.1006 -6.1800
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p = 571

48 nodes 10 spinal nodes
\(\ell\) diameter \(c_\ell\) \(\lambda_2\) \(\lambda_n\)
2 8 4 2.6756 -2.7653
3 5 8 3.3963 -3.4300
5 5 17 4.2701 -4.3500
7 4 6 4.8409 -4.4575
11 3 11 6.3319 -6.0377
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