12a

0071

(K12a

0071

)

A knot diagram

Linearized knot diagam

3 5 7 9 2 10 12 1 11 6 4 8

Solving Sequence

7,12

8 1

4,9

5 3 2 11 10 6

, c

Ideals for irreducible components

of X

par

= h9.06148 × 10

225

108

+ 1.05422 × 10

226

107

+ ··· + 5.27836 × 10

225

b + 1.18579 × 10

226

− 3.01470 × 10

223

108

− 3.51077 × 10

223

107

+ ··· + 5.38608 × 10

223

a − 7.22964 × 10

223

109

+ 3u

108

+ ··· + 2u

+ 1i

= h21u

b + 49b

+ 35bu + 10u

+ 7b + 19u + 22, a, u

+ u

− 1i

* 2 irreducible components of dim

= 0, with total 115 representations.

The image of knot diagram is generated by the software “Draw programme” developed by An-

drew Bartholomew(http://www.layer8.co.uk/maths/draw/index.htm#Running-draw), where we modi-

ﬁed some parts for our purpose(https://github.com/CATsTAILs/LinksPainter).

All coeﬃcients of polynomials are rational numbers. But the coeﬃcients are sometimes approximated

in decimal forms when there is not enough margin.

I. I

= h9.06 × 10

225

108

+ 1.05 × 10

226

107

+ · · · + 5.28 × 10

225

b + 1.19 ×

226

, −3.01 × 10

223

108

− 3.51 × 10

223

107

+ · · · + 5.39 × 10

223

a − 7.23 ×

223

, u

109

+ 3u

108

+ · · · + 2u

+ 1i

(i) Arc colorings















−u

+ u





0.559721u

108

+ 0.651823u

107

+ ··· − 0.410187u + 1.34228

−1.71672u

108

− 1.99725u

107

+ ··· + 3.05241u − 2.24651





−u

+ 1

−u

+ 2u





0.192858u

108

+ 0.779830u

107

+ ··· + 2.58086u + 0.364839

−0.692306u

108

− 0.275910u

107

+ ··· + 1.29823u − 1.50459





−1.15700u

108

− 1.34542u

107

+ ··· + 2.64222u − 0.904224

−1.71672u

108

− 1.99725u

107

+ ··· + 3.05241u − 2.24651





−4.03867u

108

− 6.47872u

107

+ ··· + 0.850657u − 3.08463

−3.85538u

108

− 6.16675u

107

+ ··· + 6.51846u − 3.48949





0.107568u

108

+ 0.213955u

107

+ ··· + 0.809172u − 0.177700

1.39394u

108

+ 2.20200u

107

+ ··· − 1.98924u + 1.33556





−0.222413u

108

− 0.429613u

107

+ ··· − 0.690353u + 0.836754

1.26981u

108

+ 2.30353u

107

+ ··· + 0.348221u + 1.14552





−1.03789u

108

− 1.77503u

107

+ ··· + 1.07250u − 1.04911

−0.967747u

108

− 1.68509u

107

+ ··· − 0.843787u − 0.111823



(ii) Obstruction class = −1

(iii) Cusp Shapes = 10.5657u

108

+ 18.1769u

107

+ ··· + 8.33675u + 11.3613

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

109

+ 50u

108

+ ··· − 9999u − 2401

, c

109

+ 4u

108

+ ··· − 551u − 49

49(49u

109

+ 42u

108

+ ··· − 1346644u − 153031)

49(49u

109

+ 154u

108

+ ··· + 1.84924 × 10

u + 1398784)

, c

109

+ 3u

108

+ ··· + 6u + 1

, c

109

+ 3u

108

+ ··· + 2u

+ 1

109

− 49u

108

+ ··· − 4u + 1

109

− 5u

108

+ ··· + 48608u + 21952

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

109

+ 22y

108

+ ··· + 18653329y −5764801

, c

109

+ 50y

108

+ ··· − 9999y −2401

2401

· (2401y

109

− 163660y

108

+ ··· − 913616530238y −23418486961)

2401

· (2401y

109

+ 1666y

108

+ ··· + 9951035523072y −1956596678656)

, c

109

+ 49y

108

+ ··· − 4y −1

, c

109

− 103y

108

+ ··· − 4y −1

109

+ 25y

108

+ ··· + 72y −1

109

+ 35y

108

+ ··· − 3911670784y −481890304

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.489926 + 0.841164I

a = −0.606125 + 1.170680I

b = 1.134530 − 0.822129I

−2.69398 + 8.51191I 0

u = −0.489926 − 0.841164I

a = −0.606125 − 1.170680I

b = 1.134530 + 0.822129I

−2.69398 − 8.51191I 0

u = 0.509943 + 0.826525I

a = 0.50185 + 1.38603I

b = −1.12948 − 1.03666I

−0.5579 − 14.3486I 0

u = 0.509943 − 0.826525I

a = 0.50185 − 1.38603I

b = −1.12948 + 1.03666I

−0.5579 + 14.3486I 0

u = 0.648459 + 0.806149I

a = 1.065950 + 0.105647I

b = −0.773273 + 0.689039I

−0.92733 + 8.91163I 0

u = 0.648459 − 0.806149I

a = 1.065950 − 0.105647I

b = −0.773273 − 0.689039I

−0.92733 − 8.91163I 0

u = −0.705187 + 0.776451I

a = −0.857316 + 0.368561I

b = 0.796547 + 0.451101I

−3.29024 − 3.05508I 0

u = −0.705187 − 0.776451I

a = −0.857316 − 0.368561I

b = 0.796547 − 0.451101I

−3.29024 + 3.05508I 0

u = 0.520207 + 0.931345I

a = 0.253538 + 0.739970I

b = −0.677677 − 0.603783I

3.72190 − 5.56725I 0

u = 0.520207 − 0.931345I

a = 0.253538 − 0.739970I

b = −0.677677 + 0.603783I

3.72190 + 5.56725I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.332705 + 0.846613I

a = −0.994225 + 0.334332I

b = 1.147690 + 0.019200I

−4.05789 + 3.74836I 0

u = −0.332705 − 0.846613I

a = −0.994225 − 0.334332I

b = 1.147690 − 0.019200I

−4.05789 − 3.74836I 0

u = 0.362269 + 0.817846I

a = −0.241246 − 1.015470I

b = 0.522740 + 0.796545I

4.88494 − 0.80424I 0

u = 0.362269 − 0.817846I

a = −0.241246 + 1.015470I

b = 0.522740 − 0.796545I

4.88494 + 0.80424I 0

u = 0.640718 + 0.619636I

a = −1.130640 − 0.166942I

b = 0.673295 − 0.437255I

0.92415 + 4.09684I 0

u = 0.640718 − 0.619636I

a = −1.130640 + 0.166942I

b = 0.673295 + 0.437255I

0.92415 − 4.09684I 0

u = −0.821915 + 0.342724I

a = 0.666369 − 0.371402I

b = −0.172804 − 0.223629I

−1.34681 + 0.71674I 0

u = −0.821915 − 0.342724I

a = 0.666369 + 0.371402I

b = −0.172804 + 0.223629I

−1.34681 − 0.71674I 0

u = 0.438488 + 0.747759I

a = −0.60734 − 1.53057I

b = 0.973424 + 0.926486I

1.56612 − 8.78514I 0

u = 0.438488 − 0.747759I

a = −0.60734 + 1.53057I

b = 0.973424 − 0.926486I

1.56612 + 8.78514I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.651090 + 0.533274I

a = −0.28816 + 1.45770I

b = 1.062210 − 0.259698I

−5.38646 + 0.84334I 0

u = −0.651090 − 0.533274I

a = −0.28816 − 1.45770I

b = 1.062210 + 0.259698I

−5.38646 − 0.84334I 0

u = −0.416063 + 0.725434I

a = 0.68573 − 1.28827I

b = −0.903118 + 0.735994I

−0.49874 + 3.40197I 0

u = −0.416063 − 0.725434I

a = 0.68573 + 1.28827I

b = −0.903118 − 0.735994I

−0.49874 − 3.40197I 0

u = 0.251562 + 0.774587I

a = 1.165860 − 0.068813I

b = −1.137790 + 0.418799I

−3.07379 + 2.21369I 0

u = 0.251562 − 0.774587I

a = 1.165860 + 0.068813I

b = −1.137790 − 0.418799I

−3.07379 − 2.21369I 0

u = 0.579115 + 0.507577I

a = 0.05747 + 1.87013I

b = −1.137540 − 0.504304I

−4.32288 − 6.26751I 0

u = 0.579115 − 0.507577I

a = 0.05747 − 1.87013I

b = −1.137540 + 0.504304I

−4.32288 + 6.26751I 0

u = 1.013290 + 0.706462I

a = −0.425669 − 0.055355I

b = 0.197913 − 0.411645I

3.19213 − 4.51638I 0

u = 1.013290 − 0.706462I

a = −0.425669 + 0.055355I

b = 0.197913 + 0.411645I

3.19213 + 4.51638I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.935705 + 0.861076I

a = 0.293724 + 0.261994I

b = −0.468609 + 0.170672I

2.71396 − 0.69644I 0

u = 0.935705 − 0.861076I

a = 0.293724 − 0.261994I

b = −0.468609 − 0.170672I

2.71396 + 0.69644I 0

u = 1.280350 + 0.018606I

a = −1.43758 + 0.46050I

b = −0.179102 − 0.349982I

−0.30029 − 3.05301I 0

u = 1.280350 − 0.018606I

a = −1.43758 − 0.46050I

b = −0.179102 + 0.349982I

−0.30029 + 3.05301I 0

u = −1.30388

a = 0.888977

b = 0.696510

−2.58592 0

u = −1.303700 + 0.057096I

a = 0.74284 + 1.24535I

b = 0.334669 − 0.980720I

−0.740344 + 0.546849I 0

u = −1.303700 − 0.057096I

a = 0.74284 − 1.24535I

b = 0.334669 + 0.980720I

−0.740344 − 0.546849I 0

u = −0.493875 + 0.488188I

a = 0.884027 − 0.566340I

b = −0.585707 + 0.067307I

−1.18169 + 0.83074I −5.14593 − 2.98967I

u = −0.493875 − 0.488188I

a = 0.884027 + 0.566340I

b = −0.585707 − 0.067307I

−1.18169 − 0.83074I −5.14593 + 2.98967I

u = −1.322990 + 0.037419I

a = 0.419364 − 0.288008I

b = 2.24257 − 0.59888I

−5.13718 + 0.93066I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.322990 − 0.037419I

a = 0.419364 + 0.288008I

b = 2.24257 + 0.59888I

−5.13718 − 0.93066I 0

u = −1.327760 + 0.089354I

a = −0.08728 + 1.59023I

b = 0.294552 − 1.028630I

−1.54532 + 6.50144I 0

u = −1.327760 − 0.089354I

a = −0.08728 − 1.59023I

b = 0.294552 + 1.028630I

−1.54532 − 6.50144I 0

u = 1.346210 + 0.060339I

a = −0.006328 + 0.929324I

b = −0.225605 − 1.369110I

−3.32385 − 2.89150I 0

u = 1.346210 − 0.060339I

a = −0.006328 − 0.929324I

b = −0.225605 + 1.369110I

−3.32385 + 2.89150I 0

u = 1.364470 + 0.020474I

a = −0.295490 − 0.214355I

b = −4.33439 + 0.52295I

−4.95461 + 3.75362I 0

u = 1.364470 − 0.020474I

a = −0.295490 + 0.214355I

b = −4.33439 − 0.52295I

−4.95461 − 3.75362I 0

u = 1.373840 + 0.099861I

a = 0.819714 + 0.934876I

b = 0.250264 − 0.590954I

−2.88115 − 3.30978I 0

u = 1.373840 − 0.099861I

a = 0.819714 − 0.934876I

b = 0.250264 + 0.590954I

−2.88115 + 3.30978I 0

u = 1.405360 + 0.131951I

a = 1.51446 + 0.37423I

b = 0.346042 + 0.380484I

−4.85566 − 8.88179I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.405360 − 0.131951I

a = 1.51446 − 0.37423I

b = 0.346042 − 0.380484I

−4.85566 + 8.88179I 0

u = −1.42243 + 0.11797I

a = −1.192690 + 0.117412I

b = −0.762736 + 0.416056I

−6.25207 + 4.41292I 0

u = −1.42243 − 0.11797I

a = −1.192690 − 0.117412I

b = −0.762736 − 0.416056I

−6.25207 − 4.41292I 0

u = 1.44211 + 0.02977I

a = 0.303260 − 0.075434I

b = 4.14471 + 2.85875I

−5.17776 + 0.09499I 0

u = 1.44211 − 0.02977I

a = 0.303260 + 0.075434I

b = 4.14471 − 2.85875I

−5.17776 − 0.09499I 0

u = −1.44737 + 0.07794I

a = −0.658075 − 0.070611I

b = −1.61466 + 0.78393I

−6.17975 + 3.74343I 0

u = −1.44737 − 0.07794I

a = −0.658075 + 0.070611I

b = −1.61466 − 0.78393I

−6.17975 − 3.74343I 0

u = −1.45325 + 0.17426I

a = −0.022009 + 0.560798I

b = 1.191190 − 0.354754I

−5.88811 − 1.65848I 0

u = −1.45325 − 0.17426I

a = −0.022009 − 0.560798I

b = 1.191190 + 0.354754I

−5.88811 + 1.65848I 0

u = 1.46074 + 0.22397I

a = −0.087044 + 0.735866I

b = −1.246400 − 0.536367I

−7.30379 − 3.60572I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.46074 − 0.22397I

a = −0.087044 − 0.735866I

b = −1.246400 + 0.536367I

−7.30379 + 3.60572I 0

u = 0.517939 + 0.030277I

a = −1.257170 − 0.613936I

b = 0.585738 + 0.551331I

0.80173 + 2.83553I −4.73944 − 4.73337I

u = 0.517939 − 0.030277I

a = −1.257170 + 0.613936I

b = 0.585738 − 0.551331I

0.80173 − 2.83553I −4.73944 + 4.73337I

u = −0.268706 + 0.441472I

a = 2.76472 + 1.19560I

b = 0.174119 − 0.914672I

0.49351 + 6.83165I 0.30272 − 12.02369I

u = −0.268706 − 0.441472I

a = 2.76472 − 1.19560I

b = 0.174119 + 0.914672I

0.49351 − 6.83165I 0.30272 + 12.02369I

u = −1.46682 + 0.28160I

a = 0.432061 + 0.746282I

b = 0.980677 − 0.924511I

−1.01642 + 4.71566I 0

u = −1.46682 − 0.28160I

a = 0.432061 − 0.746282I

b = 0.980677 + 0.924511I

−1.01642 − 4.71566I 0

u = 0.316309 + 0.384190I

a = −1.93029 + 1.27801I

b = −0.506253 − 0.870148I

−0.67357 − 2.60087I −3.21300 + 6.51215I

u = 0.316309 − 0.384190I

a = −1.93029 − 1.27801I

b = −0.506253 + 0.870148I

−0.67357 + 2.60087I −3.21300 − 6.51215I

u = −1.46418 + 0.35096I

a = 0.061766 − 0.696071I

b = −1.204820 − 0.108656I

−8.55069 + 2.04352I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.46418 − 0.35096I

a = 0.061766 + 0.696071I

b = −1.204820 + 0.108656I

−8.55069 − 2.04352I 0

u = 1.48529 + 0.26251I

a = −0.349746 + 0.983137I

b = −1.32341 − 0.99961I

−6.67106 − 7.00396I 0

u = 1.48529 − 0.26251I

a = −0.349746 − 0.983137I

b = −1.32341 + 0.99961I

−6.67106 + 7.00396I 0

u = 0.027486 + 0.487190I

a = −0.96250 − 2.69226I

b = 0.177661 + 0.847878I

3.12289 + 1.30549I 8.69976 − 1.36522I

u = 0.027486 − 0.487190I

a = −0.96250 + 2.69226I

b = 0.177661 − 0.847878I

3.12289 − 1.30549I 8.69976 + 1.36522I

u = −1.49169 + 0.26804I

a = 0.449384 + 1.049550I

b = 1.33215 − 1.16283I

−4.69085 + 12.48030I 0

u = −1.49169 − 0.26804I

a = 0.449384 − 1.049550I

b = 1.33215 + 1.16283I

−4.69085 − 12.48030I 0

u = −1.50759 + 0.17219I

a = −0.617594 − 1.177080I

b = −1.17609 + 0.78971I

−11.1073 + 8.7748I 0

u = −1.50759 − 0.17219I

a = −0.617594 + 1.177080I

b = −1.17609 − 0.78971I

−11.1073 − 8.7748I 0

u = 0.086000 + 0.474332I

a = −2.43919 − 1.92635I

b = 0.367378 + 0.456437I

2.74605 − 4.56330I 6.84455 + 8.54463I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.086000 − 0.474332I

a = −2.43919 + 1.92635I

b = 0.367378 − 0.456437I

2.74605 + 4.56330I 6.84455 − 8.54463I

u = 1.49415 + 0.33116I

a = 0.076295 − 0.792286I

b = 1.375540 + 0.230057I

−9.99282 − 8.09149I 0

u = 1.49415 − 0.33116I

a = 0.076295 + 0.792286I

b = 1.375540 − 0.230057I

−9.99282 + 8.09149I 0

u = 1.52357 + 0.17118I

a = 0.421306 − 1.094450I

b = 1.124160 + 0.649554I

−12.44990 − 3.40335I 0

u = 1.52357 − 0.17118I

a = 0.421306 + 1.094450I

b = 1.124160 − 0.649554I

−12.44990 + 3.40335I 0

u = −0.160251 + 0.432564I

a = 2.74408 − 0.38939I

b = −0.076446 − 0.185049I

1.93549 + 1.48976I 4.80637 − 4.55092I

u = −0.160251 − 0.432564I

a = 2.74408 + 0.38939I

b = −0.076446 + 0.185049I

1.93549 − 1.48976I 4.80637 + 4.55092I

u = −1.54980 + 0.09230I

a = −0.363553 − 0.522923I

b = −0.543928 + 0.839192I

−6.36585 + 3.09614I 0

u = −1.54980 − 0.09230I

a = −0.363553 + 0.522923I

b = −0.543928 − 0.839192I

−6.36585 − 3.09614I 0

u = 1.52512 + 0.30119I

a = 0.381361 − 0.948118I

b = 1.52384 + 0.96207I

−9.2312 − 12.6732I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.52512 − 0.30119I

a = 0.381361 + 0.948118I

b = 1.52384 − 0.96207I

−9.2312 + 12.6732I 0

u = −1.53021 + 0.29511I

a = −0.473162 − 0.979653I

b = −1.52026 + 1.16960I

−7.1817 + 18.4464I 0

u = −1.53021 − 0.29511I

a = −0.473162 + 0.979653I

b = −1.52026 − 1.16960I

−7.1817 − 18.4464I 0

u = −0.028029 + 0.432349I

a = 1.28487 − 1.33272I

b = −0.012099 + 0.713001I

0.85731 + 1.39747I 1.09021 − 4.04698I

u = −0.028029 − 0.432349I

a = 1.28487 + 1.33272I

b = −0.012099 − 0.713001I

0.85731 − 1.39747I 1.09021 + 4.04698I

u = −1.53867 + 0.32025I

a = −0.373328 − 0.730198I

b = −1.096350 + 0.805215I

−2.93916 + 10.06180I 0

u = −1.53867 − 0.32025I

a = −0.373328 + 0.730198I

b = −1.096350 − 0.805215I

−2.93916 − 10.06180I 0

u = −0.404504 + 0.057065I

a = 0.83922 − 1.30855I

b = −0.19631 + 1.74420I

0.671600 + 0.217161I −12.32084 + 0.43118I

u = −0.404504 − 0.057065I

a = 0.83922 + 1.30855I

b = −0.19631 − 1.74420I

0.671600 − 0.217161I −12.32084 − 0.43118I

u = 1.58565 + 0.17300I

a = 0.029475 − 0.750207I

b = 0.775362 + 0.263203I

−11.13310 − 0.27637I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.58565 − 0.17300I

a = 0.029475 + 0.750207I

b = 0.775362 − 0.263203I

−11.13310 + 0.27637I 0

u = 0.317229 + 0.245819I

a = −1.24995 + 0.85292I

b = −0.738382 − 0.858373I

−0.37551 − 2.54693I 1.38986 + 6.91010I

u = 0.317229 − 0.245819I

a = −1.24995 − 0.85292I

b = −0.738382 + 0.858373I

−0.37551 + 2.54693I 1.38986 − 6.91010I

u = 0.214125 + 0.331266I

a = 0.79698 − 1.33459I

b = −0.08689 + 2.01105I

−0.555437 + 0.437836I 4.35743 + 8.19634I

u = 0.214125 − 0.331266I

a = 0.79698 + 1.33459I

b = −0.08689 − 2.01105I

−0.555437 − 0.437836I 4.35743 − 8.19634I

u = −0.295460 + 0.242991I

a = −0.28861 − 1.62323I

b = −0.03817 + 2.38617I

0.03496 − 4.63924I −4.02680 − 10.12172I

u = −0.295460 − 0.242991I

a = −0.28861 + 1.62323I

b = −0.03817 − 2.38617I

0.03496 + 4.63924I −4.02680 + 10.12172I

u = −1.61960 + 0.20021I

a = 0.142144 − 0.608389I

b = −0.637498 + 0.018740I

−8.65273 − 5.12333I 0

u = −1.61960 − 0.20021I

a = 0.142144 + 0.608389I

b = −0.637498 − 0.018740I

−8.65273 + 5.12333I 0

II. I

= h21u

b + 10u

+ · · · + 7b + 22, a, u

+ u

− 1i

(i) Arc colorings















−u

+ u − 1









−u

+ 1

− u + 1





−u

b + bu

−2u

b − 2bu + 4b









+ b −

u +

+ b +

u −









−u

+ 1





−u

− u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes =

b −

bu +

−

b −

155

u −

262

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

+ u + 1)

49(49u

− 7u

+ 29u

+ 18u

+ 15u

+ 4u + 1)

49(49u

+ 7u

− 6u

+ 15u

+ 2u

− u + 1)

− u

+ 2u − 1)

, c

+ u

− 1)

+ 3u

+ 2u − 1)

+ u

+ 2u + 1)

− u

+ 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

2401(2401y

+ 2793y

+ 2563y

+ 700y

+ 139y

+ 14y + 1)

2401(2401y

− 637y

+ 22y

− 137y

+ 22y

+ 3y + 1)

, c

+ 3y

+ 2y −1)

, c

− y

+ 2y −1)

− 5y

+ 10y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.877439 + 0.744862I

a = 0

b = 0.171467 + 0.353309I

3.02413 + 4.85801I −7.94313 − 10.82265I

u = −0.877439 + 0.744862I

a = 0

b = 0.220241 − 0.325149I

3.02413 + 0.79824I 7.13283 − 3.60755I

u = −0.877439 − 0.744862I

a = 0

b = 0.171467 − 0.353309I

3.02413 − 4.85801I −7.94313 + 10.82265I

u = −0.877439 − 0.744862I

a = 0

b = 0.220241 + 0.325149I

3.02413 − 0.79824I 7.13283 + 3.60755I

u = 0.754878

a = 0

b = −0.463136 + 0.802176I

−1.11345 + 2.02988I −5.93460 − 2.73535I

u = 0.754878

a = 0

b = −0.463136 − 0.802176I

−1.11345 − 2.02988I −5.93460 + 2.73535I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

109

+ 50u

108

+ ··· − 9999u − 2401)

((u

+ u + 1)

)(u

109

+ 4u

108

+ ··· − 551u − 49)

2401(49u

− 7u

+ 29u

+ 18u

+ 15u

+ 4u + 1)

· (49u

109

+ 42u

108

+ ··· − 1346644u − 153031)

2401(49u

+ 7u

− 6u

+ 15u

+ 2u

− u + 1)

· (49u

109

+ 154u

108

+ ··· + 18492416u + 1398784)

((u

− u + 1)

)(u

109

+ 4u

108

+ ··· − 551u − 49)

((u

− u

+ 2u − 1)

)(u

109

+ 3u

108

+ ··· + 6u + 1)

, c

((u

+ u

− 1)

)(u

109

+ 3u

108

+ ··· + 2u

+ 1)

((u

+ 3u

+ 2u − 1)

)(u

109

− 49u

108

+ ··· − 4u + 1)

((u

+ u

+ 2u + 1)

)(u

109

+ 3u

108

+ ··· + 6u + 1)

109

− 5u

108

+ ··· + 48608u + 21952)

((u

− u

+ 1)

)(u

109

+ 3u

108

+ ··· + 2u

+ 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

109

+ 22y

108

+ ··· + 1.86533 × 10

y −5764801)

, c

((y

+ y + 1)

)(y

109

+ 50y

108

+ ··· − 9999y −2401)

5764801(2401y

+ 2793y

+ 2563y

+ 700y

+ 139y

+ 14y + 1)

· (2401y

109

− 163660y

108

+ ··· − 913616530238y −23418486961)

5764801(2401y

− 637y

+ 22y

− 137y

+ 22y

+ 3y + 1)

· (2401y

109

+ 1666y

108

+ ··· + 9951035523072y −1956596678656)

, c

((y

+ 3y

+ 2y −1)

)(y

109

+ 49y

108

+ ··· − 4y −1)

, c

((y

− y

+ 2y −1)

)(y

109

− 103y

108

+ ··· − 4y −1)

((y

− 5y

+ 10y −1)

)(y

109

+ 25y

108

+ ··· + 72y −1)

109

+ 35y

108

+ ··· − 3.91167 × 10

y −4.81890 × 10

)