12a

0273

(K12a

0273

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,10

11 8

4,12

1 3 9 5 6 2

, c

Ideals for irreducible components

of X

par

= h4.11782 × 10

111

107

− 1.72896 × 10

112

106

+ ··· + 2.70657 × 10

109

b + 5.15017 × 10

111

− 9.18604 × 10

110

107

+ 3.85195 × 10

111

106

+ ··· + 1.35329 × 10

109

a − 1.19005 × 10

111

108

− 5u

107

+ ··· − 4u − 1i

= hb

− b

+ 2b − 1, a, u − 1i

= hb, a − u − 1, u

+ u

− 1i

* 3 irreducible components of dim

= 0, with total 114 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

= h4.12 × 10

111

107

− 1.73 × 10

112

106

+ · · · + 2.71 × 10

109

b + 5.15 ×

111

, −9.19 × 10

110

107

+ 3.85 × 10

111

106

+ · · · + 1.35 × 10

109

a − 1.19 ×

111

, u

108

− 5u

107

+ · · · − 4u − 1i

(i) Arc colorings











−u





−u

+ u





67.8795u

107

− 284.637u

106

+ ··· + 399.400u + 87.9382

−152.142u

107

+ 638.802u

106

+ ··· − 1002.39u − 190.284





−u

+ 1

−u





6.01771u

107

− 24.3208u

106

+ ··· + 36.1965u + 2.67705

−5.22248u

107

+ 26.6576u

106

+ ··· − 58.8780u − 11.2402





−48.5904u

107

+ 202.556u

106

+ ··· − 350.712u − 55.3704

−190.876u

107

+ 800.455u

106

+ ··· − 1255.40u − 238.436





− u

+ 1





−48.3647u

107

+ 201.869u

106

+ ··· − 350.353u − 54.7783

−216.521u

107

+ 905.574u

106

+ ··· − 1403.65u − 267.141





16.3787u

107

− 67.4197u

106

+ ··· + 101.379u + 11.9449

46.8149u

107

− 192.264u

106

+ ··· + 275.135u + 52.5332





−12.7836u

107

+ 52.3966u

106

+ ··· − 69.4987u − 11.0363

−42.8242u

107

+ 178.501u

106

+ ··· − 268.820u − 51.4147



(ii) Obstruction class = −1

(iii) Cusp Shapes = −359.027u

107

+ 1549.26u

106

+ ··· − 2737.10u − 515.927

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

108

+ 35u

107

+ ··· + 146u + 1

, c

108

+ 5u

107

+ ··· + 4u − 1

108

+ u

107

+ ··· − 163u − 383

108

− u

107

+ ··· + 163u − 383

, c

108

− 5u

107

+ ··· − 4u − 1

108

− 10u

107

+ ··· − 12u + 8

, c

108

− 35u

107

+ ··· − 146u + 1

108

+ 10u

107

+ ··· + 12u + 8

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

108

+ 81y

107

+ ··· − 19954y + 1

, c

108

− 35y

107

+ ··· − 146y + 1

, c

108

+ 123y

107

+ ··· − 3629833y + 146689

, c

108

+ 18y

107

+ ··· + 1904y + 64

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.979728 + 0.166940I

a = −1.038070 + 0.480900I

b = 0.136075 + 0.665202I

3.19306 − 3.71797I 0

u = −0.979728 − 0.166940I

a = −1.038070 − 0.480900I

b = 0.136075 − 0.665202I

3.19306 + 3.71797I 0

u = −0.605005 + 0.787681I

a = 0.845635 − 0.095086I

b = 0.962946 + 0.612440I

−2.14715 − 1.03507I 0

u = −0.605005 − 0.787681I

a = 0.845635 + 0.095086I

b = 0.962946 − 0.612440I

−2.14715 + 1.03507I 0

u = 0.715108 + 0.670386I

a = 0.771317 + 0.384628I

b = 0.157147 − 1.104620I

2.14715 + 1.03507I 0

u = 0.715108 − 0.670386I

a = 0.771317 − 0.384628I

b = 0.157147 + 1.104620I

2.14715 − 1.03507I 0

u = −0.973353 + 0.047519I

a = −1.02470 − 1.12942I

b = −0.075717 − 1.064180I

7.14796 + 0.81738I 0

u = −0.973353 − 0.047519I

a = −1.02470 + 1.12942I

b = −0.075717 + 1.064180I

7.14796 − 0.81738I 0

u = −0.956601 + 0.099212I

a = 0.99426 + 1.23398I

b = 0.124520 + 1.135330I

6.35502 − 5.36585I 0

u = −0.956601 − 0.099212I

a = 0.99426 − 1.23398I

b = 0.124520 − 1.135330I

6.35502 + 5.36585I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.745810 + 0.744346I

a = −1.027490 − 0.410866I

b = −0.451934 + 1.247910I

0.82383 − 4.62628I 0

u = 0.745810 − 0.744346I

a = −1.027490 + 0.410866I

b = −0.451934 − 1.247910I

0.82383 + 4.62628I 0

u = 0.850637 + 0.406962I

a = 0.080872 + 0.341351I

b = −0.238152 − 0.726384I

1.82900 + 1.35958I 0

u = 0.850637 − 0.406962I

a = 0.080872 − 0.341351I

b = −0.238152 + 0.726384I

1.82900 − 1.35958I 0

u = −1.019000 + 0.284607I

a = 0.769824 − 0.155699I

b = −0.374588 − 0.510091I

− 7.09355I 0

u = −1.019000 − 0.284607I

a = 0.769824 + 0.155699I

b = −0.374588 + 0.510091I

7.09355I 0

u = 0.862762 + 0.622752I

a = −1.58251 − 1.51375I

b = −2.86284 + 0.83647I

3.75903 − 0.77126I 0

u = 0.862762 − 0.622752I

a = −1.58251 + 1.51375I

b = −2.86284 − 0.83647I

3.75903 + 0.77126I 0

u = −0.616674 + 0.874327I

a = −0.865658 + 0.308655I

b = −1.042850 − 0.462236I

−2.85537 + 4.21466I 0

u = −0.616674 − 0.874327I

a = −0.865658 − 0.308655I

b = −1.042850 + 0.462236I

−2.85537 − 4.21466I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.814404 + 0.714383I

a = 1.00553 + 2.14684I

b = −0.52002 + 1.34231I

− 4.57359I 0

u = −0.814404 − 0.714383I

a = 1.00553 − 2.14684I

b = −0.52002 − 1.34231I

4.57359I 0

u = 0.744550 + 0.799387I

a = −1.43674 − 1.59030I

b = −2.50978 − 0.05086I

−3.11037 − 2.87230I 0

u = 0.744550 − 0.799387I

a = −1.43674 + 1.59030I

b = −2.50978 + 0.05086I

−3.11037 + 2.87230I 0

u = 0.907254 + 0.638959I

a = 1.66458 + 1.44541I

b = 2.94097 − 0.92211I

3.93257 + 5.67737I 0

u = 0.907254 − 0.638959I

a = 1.66458 − 1.44541I

b = 2.94097 + 0.92211I

3.93257 − 5.67737I 0

u = −0.821570 + 0.746772I

a = −1.20102 − 2.36279I

b = 0.40213 − 1.66223I

−0.298325 + 0.873313I 0

u = −0.821570 − 0.746772I

a = −1.20102 + 2.36279I

b = 0.40213 + 1.66223I

−0.298325 − 0.873313I 0

u = 0.693031 + 0.877224I

a = −1.53841 − 1.50089I

b = −2.30877 − 0.13072I

− 6.29181I 0

u = 0.693031 − 0.877224I

a = −1.53841 + 1.50089I

b = −2.30877 + 0.13072I

6.29181I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.870551 + 0.703926I

a = −0.881042 + 0.605315I

b = 0.58910 + 2.04797I

−3.89287 + 2.70030I 0

u = 0.870551 − 0.703926I

a = −0.881042 − 0.605315I

b = 0.58910 − 2.04797I

−3.89287 − 2.70030I 0

u = −0.816700 + 0.769783I

a = 1.72760 − 0.26942I

b = 1.63286 + 0.89494I

−3.53829 − 1.78224I 0

u = −0.816700 − 0.769783I

a = 1.72760 + 0.26942I

b = 1.63286 − 0.89494I

−3.53829 + 1.78224I 0

u = 0.803722 + 0.787733I

a = 1.32736 + 1.65587I

b = 2.73483 + 0.18727I

−6.28442 + 1.49926I 0

u = 0.803722 − 0.787733I

a = 1.32736 − 1.65587I

b = 2.73483 − 0.18727I

−6.28442 − 1.49926I 0

u = 1.112550 + 0.201315I

a = 0.154894 − 0.326872I

b = 0.202520 + 0.144144I

0.629927 − 0.566671I 0

u = 1.112550 − 0.201315I

a = 0.154894 + 0.326872I

b = 0.202520 − 0.144144I

0.629927 + 0.566671I 0

u = 0.866946

a = 0.530489

b = −0.445872

1.43135 0

u = 0.700693 + 0.895805I

a = 1.54343 + 1.47096I

b = 2.30224 + 0.16065I

−1.06026 − 12.34350I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.700693 − 0.895805I

a = 1.54343 − 1.47096I

b = 2.30224 − 0.16065I

−1.06026 + 12.34350I 0

u = 0.752822 + 0.857130I

a = 1.43527 + 1.49045I

b = 2.41571 + 0.18143I

−7.40743 − 6.11835I 0

u = 0.752822 − 0.857130I

a = 1.43527 − 1.49045I

b = 2.41571 − 0.18143I

−7.40743 + 6.11835I 0

u = −1.126570 + 0.214725I

a = −0.564137 + 0.491665I

b = 0.450345 + 0.778573I

7.40743 − 6.11835I 0

u = −1.126570 − 0.214725I

a = −0.564137 − 0.491665I

b = 0.450345 − 0.778573I

7.40743 + 6.11835I 0

u = 0.107937 + 0.844817I

a = −0.365482 − 0.693695I

b = 0.131212 + 0.293224I

2.38418 + 8.65987I 0

u = 0.107937 − 0.844817I

a = −0.365482 + 0.693695I

b = 0.131212 − 0.293224I

2.38418 − 8.65987I 0

u = −0.912663 + 0.707599I

a = 2.08182 + 1.46268I

b = 0.95698 + 2.07662I

0.298325 − 0.873313I 0

u = −0.912663 − 0.707599I

a = 2.08182 − 1.46268I

b = 0.95698 − 2.07662I

0.298325 + 0.873313I 0

u = −0.878636 + 0.753546I

a = −2.34831 − 3.13274I

b = 0.00650 − 3.16279I

−4.37927 − 2.85474I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.878636 − 0.753546I

a = −2.34831 + 3.13274I

b = 0.00650 + 3.16279I

−4.37927 + 2.85474I 0

u = −0.752213 + 0.881864I

a = −1.149800 + 0.436361I

b = −1.329100 − 0.473314I

−7.14796 − 0.81738I 0

u = −0.752213 − 0.881864I

a = −1.149800 − 0.436361I

b = −1.329100 + 0.473314I

−7.14796 + 0.81738I 0

u = −1.140280 + 0.239475I

a = 0.499762 − 0.446388I

b = −0.505072 − 0.759246I

6.64063 − 12.17460I 0

u = −1.140280 − 0.239475I

a = 0.499762 + 0.446388I

b = −0.505072 + 0.759246I

6.64063 + 12.17460I 0

u = 0.829074 + 0.011014I

a = −0.07425 − 1.42512I

b = −0.16570 + 4.05652I

4.37927 + 2.85474I 0

u = 0.829074 − 0.011014I

a = −0.07425 + 1.42512I

b = −0.16570 − 4.05652I

4.37927 − 2.85474I 0

u = −0.918379 + 0.727605I

a = −2.14206 − 1.70389I

b = −0.85806 − 2.22807I

− 6.47878I 0

u = −0.918379 − 0.727605I

a = −2.14206 + 1.70389I

b = −0.85806 + 2.22807I

6.47878I 0

u = −0.819143 + 0.114490I

a = 1.78431 − 0.53842I

b = 0.292058 − 0.533870I

−0.629927 − 0.566671I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.819143 − 0.114490I

a = 1.78431 + 0.53842I

b = 0.292058 + 0.533870I

−0.629927 + 0.566671I 0

u = 0.958471 + 0.677586I

a = 0.012558 − 0.529487I

b = −1.14801 − 1.14971I

2.85537 + 4.21466I 0

u = 0.958471 − 0.677586I

a = 0.012558 + 0.529487I

b = −1.14801 + 1.14971I

2.85537 − 4.21466I 0

u = 0.146172 + 0.809684I

a = 0.429990 + 0.687130I

b = −0.097622 − 0.338027I

3.11037 + 2.87230I 0

u = 0.146172 − 0.809684I

a = 0.429990 − 0.687130I

b = −0.097622 + 0.338027I

3.11037 − 2.87230I 0

u = −0.935562 + 0.738376I

a = −0.74515 + 1.49429I

b = −1.68440 + 0.26171I

−3.16513 − 3.92976I 0

u = −0.935562 − 0.738376I

a = −0.74515 − 1.49429I

b = −1.68440 − 0.26171I

−3.16513 + 3.92976I 0

u = 0.963977 + 0.711243I

a = 0.112037 + 0.707021I

b = 1.39808 + 1.15135I

1.48137 + 10.17620I 0

u = 0.963977 − 0.711243I

a = 0.112037 − 0.707021I

b = 1.39808 − 1.15135I

1.48137 − 10.17620I 0

u = 0.943219 + 0.748695I

a = −1.91135 − 1.20561I

b = −2.71010 + 1.24978I

−5.85299 + 4.29300I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.943219 − 0.748695I

a = −1.91135 + 1.20561I

b = −2.71010 − 1.24978I

−5.85299 − 4.29300I 0

u = 1.138430 + 0.405967I

a = −0.245790 + 0.237091I

b = −0.558583 − 0.249422I

6.28442 + 1.49926I 0

u = 1.138430 − 0.405967I

a = −0.245790 − 0.237091I

b = −0.558583 + 0.249422I

6.28442 − 1.49926I 0

u = 1.165830 + 0.377480I

a = 0.253866 − 0.276152I

b = 0.523546 + 0.178040I

5.85299 − 4.29300I 0

u = 1.165830 − 0.377480I

a = 0.253866 + 0.276152I

b = 0.523546 − 0.178040I

5.85299 + 4.29300I 0

u = 0.982453 + 0.737148I

a = 1.81148 + 1.22461I

b = 2.71926 − 1.02344I

−2.38418 + 8.65987I 0

u = 0.982453 − 0.737148I

a = 1.81148 − 1.22461I

b = 2.71926 + 1.02344I

−2.38418 − 8.65987I 0

u = 1.228270 + 0.025249I

a = 0.023097 − 0.406949I

b = 0.0309378 − 0.0677333I

3.89287 + 2.70030I 0

u = 1.228270 − 0.025249I

a = 0.023097 + 0.406949I

b = 0.0309378 + 0.0677333I

3.89287 − 2.70030I 0

u = −0.873340 + 0.892543I

a = −1.209720 + 0.689510I

b = −1.55362 − 0.32280I

−3.93257 − 5.67737I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.873340 − 0.892543I

a = −1.209720 − 0.689510I

b = −1.55362 + 0.32280I

−3.93257 + 5.67737I 0

u = 1.000250 + 0.769183I

a = −1.78545 − 1.18517I

b = −2.58944 + 0.94144I

−6.64063 + 12.17460I 0

u = 1.000250 − 0.769183I

a = −1.78545 + 1.18517I

b = −2.58944 − 0.94144I

−6.64063 − 12.17460I 0

u = −1.052770 + 0.702532I

a = −0.448401 + 0.782629I

b = −1.317170 − 0.072692I

−0.82383 − 4.62628I 0

u = −1.052770 − 0.702532I

a = −0.448401 − 0.782629I

b = −1.317170 + 0.072692I

−0.82383 + 4.62628I 0

u = −0.926658 + 0.863457I

a = 1.15989 − 0.81420I

b = 1.62405 + 0.23900I

−3.75903 − 0.77126I 0

u = −0.926658 − 0.863457I

a = 1.15989 + 0.81420I

b = 1.62405 − 0.23900I

−3.75903 + 0.77126I 0

u = 0.728160 + 0.046370I

a = −0.66850 − 1.61942I

b = −0.14823 + 2.49858I

0.189074I 0. + 28.3801I

u = 0.728160 − 0.046370I

a = −0.66850 + 1.61942I

b = −0.14823 − 2.49858I

− 0.189074I 0. − 28.3801I

u = −0.040621 + 0.727326I

a = −0.307045 − 0.417238I

b = 0.282641 + 0.401543I

−3.19306 + 3.71797I −7.99700 − 6.03379I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.040621 − 0.727326I

a = −0.307045 + 0.417238I

b = 0.282641 − 0.401543I

−3.19306 − 3.71797I −7.99700 + 6.03379I

u = −1.008830 + 0.787104I

a = 0.809220 − 0.908283I

b = 1.53280 + 0.07933I

−6.35502 − 5.36585I 0

u = −1.008830 − 0.787104I

a = 0.809220 + 0.908283I

b = 1.53280 − 0.07933I

−6.35502 + 5.36585I 0

u = 1.036810 + 0.752906I

a = 1.76373 + 1.20388I

b = 2.68109 − 0.82580I

1.06026 + 12.34350I 0

u = 1.036810 − 0.752906I

a = 1.76373 − 1.20388I

b = 2.68109 + 0.82580I

1.06026 − 12.34350I 0

u = 1.042110 + 0.763618I

a = −1.76085 − 1.20027I

b = −2.65325 + 0.79823I

18.4856I 0

u = 1.042110 − 0.763618I

a = −1.76085 + 1.20027I

b = −2.65325 − 0.79823I

− 18.4856I 0

u = −1.070750 + 0.729666I

a = 0.557130 − 0.725560I

b = 1.369710 + 0.123145I

−1.48137 − 10.17620I 0

u = −1.070750 − 0.729666I

a = 0.557130 + 0.725560I

b = 1.369710 − 0.123145I

−1.48137 + 10.17620I 0

u = −0.389762 + 0.419664I

a = −0.003557 + 0.670504I

b = 0.383901 + 0.766173I

−1.82900 − 1.35958I −6.75012 + 4.20503I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.389762 − 0.419664I

a = −0.003557 − 0.670504I

b = 0.383901 − 0.766173I

−1.82900 + 1.35958I −6.75012 − 4.20503I

u = 0.081768 + 0.490352I

a = 0.807289 + 0.395788I

b = −0.204785 − 0.561810I

1.56023I 0. − 4.13499I

u = 0.081768 − 0.490352I

a = 0.807289 − 0.395788I

b = −0.204785 + 0.561810I

− 1.56023I 0. + 4.13499I

u = 0.289293 + 0.350302I

a = −1.33071 − 2.46775I

b = −1.131410 + 0.476487I

3.53829 − 1.78224I 0.68145 + 3.51053I

u = 0.289293 − 0.350302I

a = −1.33071 + 2.46775I

b = −1.131410 − 0.476487I

3.53829 + 1.78224I 0.68145 − 3.51053I

u = 0.156084 + 0.371239I

a = 1.74465 + 2.65310I

b = 1.025570 − 0.251004I

3.16513 + 3.92976I −0.15289 − 2.12894I

u = 0.156084 − 0.371239I

a = 1.74465 − 2.65310I

b = 1.025570 + 0.251004I

3.16513 − 3.92976I −0.15289 + 2.12894I

u = −0.0841052

a = 8.43911

b = 0.504757

−1.43135 −6.90500

II. I

= hb

− b

+ 2b − 1, a, u − 1i

(i) Arc colorings











−1













−1





−1

















+ 1





− 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −7b

+ 5b − 5

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− u

+ 2u − 1

+ u

− 1

, c

+ u

+ 2u + 1

− u

+ 1

, c

(u + 1)

, c

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 2y −1

, c

− y

+ 2y −1

, c

(y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = 0

b = 0.215080 + 1.307140I

4.66906 − 2.82812I 7.71191 + 2.59975I

u = 1.00000

a = 0

b = 0.215080 − 1.307140I

4.66906 + 2.82812I 7.71191 − 2.59975I

u = 1.00000

a = 0

b = 0.569840

0.531480 −4.42380

III. I

= hb, a − u − 1, u

+ u

− 1i

(i) Arc colorings











−u





+ u − 1





u + 1





−u

+ 1

−u





−u

− u

−u





+ u

− u





+ u − 1





+ u

− u





+ u





−u



(ii) Obstruction class = 1

(iii) Cusp Shapes = 2u

+ 7u − 2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

− u

+ 2u − 1

, c

(u + 1)

− u

+ 1

+ u

+ 2u + 1

+ u

− 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

+ 3y

+ 2y −1

, c

− y

+ 2y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.877439 + 0.744862I

a = 0.122561 + 0.744862I

b = 0

−4.66906 − 2.82812I −7.71191 + 2.59975I

u = −0.877439 − 0.744862I

a = 0.122561 − 0.744862I

b = 0

−4.66906 + 2.82812I −7.71191 − 2.59975I

u = 0.754878

a = 1.75488

b = 0

−0.531480 4.42380

IV. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

− u

+ 2u − 1)(u

108

+ 35u

107

+ ··· + 146u + 1)

((u − 1)

)(u

+ u

− 1)(u

108

+ 5u

107

+ ··· + 4u − 1)

− u

+ 2u − 1)(u

+ u

+ 2u + 1)(u

108

+ u

107

+ ··· − 163u − 383)

− u

+ 2u − 1)(u

+ u

+ 2u + 1)(u

108

− u

107

+ ··· + 163u − 383)

((u + 1)

)(u

− u

+ 1)(u

108

+ 5u

107

+ ··· + 4u − 1)

((u + 1)

)(u

+ u

+ 2u + 1)(u

108

+ 35u

107

+ ··· + 146u + 1)

((u + 1)

)(u

− u

+ 1)(u

108

− 5u

107

+ ··· − 4u − 1)

(u + 1)

108

− 10u

107

+ ··· − 12u + 8)

((u + 1)

)(u

+ u

+ 2u + 1)(u

108

− 35u

107

+ ··· − 146u + 1)

((u − 1)

)(u

+ u

− 1)(u

108

− 5u

107

+ ··· − 4u − 1)

((u − 1)

)(u

− u

+ 2u − 1)(u

108

− 35u

107

+ ··· − 146u + 1)

(u − 1)

108

+ 10u

107

+ ··· + 12u + 8)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y −1)

)(y

+ 3y

+ 2y −1)(y

108

+ 81y

107

+ ··· − 19954y + 1)

, c

((y −1)

)(y

− y

+ 2y −1)(y

108

− 35y

107

+ ··· − 146y + 1)

, c

((y

+ 3y

+ 2y −1)

)(y

108

+ 123y

107

+ ··· − 3629833y + 146689)

, c

(y −1)

108

+ 18y

107

+ ··· + 1904y + 64)