12a

1170

(K12a

1170

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

5,10

3,6

7 12 2 9 4 1 8

, c

Ideals for irreducible components

of X

par

= h4.42559 × 10

207

102

− 2.50511 × 10

206

101

+ ··· + 7.24447 × 10

208

b − 6.34599 × 10

209

− 3.30509 × 10

211

102

+ 6.96912 × 10

210

101

+ ··· + 1.25329 × 10

211

a + 5.02027 × 10

213

103

+ u

102

+ ··· + 988u − 173i

= h−14120u

+ 4722u

+ ··· + 7787b − 8083, 18524u

+ 2179u

+ ··· + 7787a − 2475,

− 14u

+ ··· + 4u

+ 1i

* 2 irreducible components of dim

= 0, with total 130 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

= h4.43 × 10

207

102

− 2.51 × 10

206

101

+ · · · + 7.24 × 10

208

b − 6.35 ×

209

, −3.31 × 10

211

102

+ 6.97 × 10

210

101

+ · · · + 1.25 × 10

211

a + 5.02 ×

213

, u

103

+ u

102

+ · · · + 988u − 173i

(i) Arc colorings











−u





2.63712u

102

− 0.556064u

101

+ ··· + 2614.38u − 400.566

−0.0610892u

102

+ 0.00345796u

101

+ ··· − 49.6740u + 8.75976





−u

+ u





3.52331u

102

− 0.839955u

101

+ ··· + 3545.53u − 544.506

0.762710u

102

− 0.270469u

101

+ ··· + 839.144u − 128.842





−u

+ 1

− 2u





2.57603u

102

− 0.552606u

101

+ ··· + 2564.71u − 391.806

−0.0610892u

102

+ 0.00345796u

101

+ ··· − 49.6740u + 8.75976





2.21085u

102

− 0.181129u

101

+ ··· + 1993.54u − 299.459

−0.120933u

102

+ 0.117634u

101

+ ··· − 172.565u + 26.1483





−1.00730u

102

+ 0.411475u

101

+ ··· − 1126.72u + 174.496

−1.64707u

102

+ 0.609439u

101

+ ··· − 1807.03u + 281.022





0.0593670u

102

− 0.0345648u

101

+ ··· + 33.9575u − 4.09273

1.01418u

102

− 0.128591u

101

+ ··· + 934.610u − 140.366





2.90932u

102

− 0.278749u

101

+ ··· + 2654.63u − 398.843

1.52886u

102

− 0.105690u

101

+ ··· + 1374.19u − 208.465



(ii) Obstruction class = −1

(iii) Cusp Shapes = −2.09664u

102

+ 0.747844u

101

+ ··· − 2298.53u + 369.408

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

103

− 4u

102

+ ··· + 63177613u − 8582393

, c

103

− u

102

+ ··· + 1650u + 121

, c

103

− 43u

101

+ ··· + 295139u + 37247

103

+ 3u

102

+ ··· − 1835136u − 186624

, c

103

− u

102

+ ··· + 988u + 173

, c

103

− 2u

102

+ ··· − 30u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

103

− 52y

102

+ ··· + 1577684931052899y −73657469606449

, c

103

− 65y

102

+ ··· + 1848880y −14641

, c

103

− 86y

102

+ ··· + 48391156629y −1387339009

103

+ 17y

102

+ ··· − 8707129344y −34828517376

, c

103

− 95y

102

+ ··· + 361302y −29929

, c

103

+ 108y

102

+ ··· + 550y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.163469 + 0.988899I

a = −0.591459 − 0.190851I

b = −0.748728 + 0.545340I

−6.44274 + 2.21725I 0

u = −0.163469 − 0.988899I

a = −0.591459 + 0.190851I

b = −0.748728 − 0.545340I

−6.44274 − 2.21725I 0

u = 0.148774 + 1.006360I

a = −0.533227 − 0.467991I

b = −0.937387 − 0.029345I

−4.91008 − 0.21953I 0

u = 0.148774 − 1.006360I

a = −0.533227 + 0.467991I

b = −0.937387 + 0.029345I

−4.91008 + 0.21953I 0

u = 0.308856 + 0.996841I

a = 0.508556 + 0.686687I

b = 1.308710 − 0.505019I

−13.0326 + 11.9617I 0

u = 0.308856 − 0.996841I

a = 0.508556 − 0.686687I

b = 1.308710 + 0.505019I

−13.0326 − 11.9617I 0

u = −0.355663 + 0.883558I

a = −0.412153 + 0.744444I

b = −1.321570 − 0.470564I

−6.21746 − 8.08999I 0

u = −0.355663 − 0.883558I

a = −0.412153 − 0.744444I

b = −1.321570 + 0.470564I

−6.21746 + 8.08999I 0

u = 1.07709

a = 1.26022

b = −1.65241

−4.86975 0

u = −1.077500 + 0.054072I

a = −0.96184 + 2.44614I

b = 0.754223 − 0.685328I

−7.36224 + 3.53097I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.077500 − 0.054072I

a = −0.96184 − 2.44614I

b = 0.754223 + 0.685328I

−7.36224 − 3.53097I 0

u = −0.602949 + 0.675187I

a = −0.514379 + 0.099696I

b = −1.057750 + 0.378820I

−7.29391 + 1.35242I 0

u = −0.602949 − 0.675187I

a = −0.514379 − 0.099696I

b = −1.057750 − 0.378820I

−7.29391 − 1.35242I 0

u = −0.872020 + 0.737402I

a = −0.379150 − 0.431654I

b = 1.189340 − 0.253433I

−4.73880 + 2.62050I 0

u = −0.872020 − 0.737402I

a = −0.379150 + 0.431654I

b = 1.189340 + 0.253433I

−4.73880 − 2.62050I 0

u = −0.628905 + 0.565862I

a = −1.52949 + 0.21220I

b = −0.148704 − 0.361724I

−7.72167 + 2.60859I 0

u = −0.628905 − 0.565862I

a = −1.52949 − 0.21220I

b = −0.148704 + 0.361724I

−7.72167 − 2.60859I 0

u = −1.171930 + 0.003108I

a = −0.37127 − 2.28954I

b = −0.846318 + 0.077461I

−6.66294 − 3.80860I 0

u = −1.171930 − 0.003108I

a = −0.37127 + 2.28954I

b = −0.846318 − 0.077461I

−6.66294 + 3.80860I 0

u = 0.105899 + 0.791296I

a = 0.802570 − 0.217865I

b = 0.816903 + 0.299056I

−1.41896 − 1.54298I 6.41871 + 1.97711I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.105899 − 0.791296I

a = 0.802570 + 0.217865I

b = 0.816903 − 0.299056I

−1.41896 + 1.54298I 6.41871 − 1.97711I

u = 0.490914 + 0.629055I

a = −0.476329 − 0.380374I

b = −0.003180 + 0.620411I

−4.41593 + 2.12959I 0. − 3.53620I

u = 0.490914 − 0.629055I

a = −0.476329 + 0.380374I

b = −0.003180 − 0.620411I

−4.41593 − 2.12959I 0. + 3.53620I

u = 1.22309

a = 0.188600

b = 1.50392

−3.65106 0

u = −0.271827 + 0.725757I

a = 0.220702 + 0.499597I

b = −0.015448 − 0.998350I

−8.96397 − 6.66223I −3.44910 + 5.30281I

u = −0.271827 − 0.725757I

a = 0.220702 − 0.499597I

b = −0.015448 + 0.998350I

−8.96397 + 6.66223I −3.44910 − 5.30281I

u = −0.361443 + 0.682704I

a = 1.48533 − 1.04786I

b = 1.181590 + 0.340135I

−7.85310 − 5.70542I −4.85454 + 6.34482I

u = −0.361443 − 0.682704I

a = 1.48533 + 1.04786I

b = 1.181590 − 0.340135I

−7.85310 + 5.70542I −4.85454 − 6.34482I

u = 0.311724 + 0.705848I

a = 0.298127 + 0.920391I

b = 1.37182 − 0.45974I

−6.19903 + 2.87469I −4.74003 − 2.88086I

u = 0.311724 − 0.705848I

a = 0.298127 − 0.920391I

b = 1.37182 + 0.45974I

−6.19903 − 2.87469I −4.74003 + 2.88086I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.226940 + 0.216577I

a = −1.015060 + 0.249853I

b = 1.63652 − 0.36861I

−9.70259 − 4.17421I 0

u = −1.226940 − 0.216577I

a = −1.015060 − 0.249853I

b = 1.63652 + 0.36861I

−9.70259 + 4.17421I 0

u = 1.257550 + 0.031034I

a = −0.002060 + 1.398640I

b = 0.846329 − 0.213131I

1.05682 − 2.10482I 0

u = 1.257550 − 0.031034I

a = −0.002060 − 1.398640I

b = 0.846329 + 0.213131I

1.05682 + 2.10482I 0

u = 0.464001 + 0.557793I

a = 0.38104 − 1.39756I

b = −1.226570 − 0.062274I

−5.41171 + 1.01005I −5.80459 − 5.38237I

u = 0.464001 − 0.557793I

a = 0.38104 + 1.39756I

b = −1.226570 + 0.062274I

−5.41171 − 1.01005I −5.80459 + 5.38237I

u = −1.272480 + 0.139287I

a = −0.212489 + 0.033918I

b = −1.51526 + 0.05400I

−8.65236 + 0.21313I 0

u = −1.272480 − 0.139287I

a = −0.212489 − 0.033918I

b = −1.51526 − 0.05400I

−8.65236 − 0.21313I 0

u = 1.280880 + 0.143923I

a = 0.77359 + 1.92507I

b = −0.643782 − 1.233920I

1.77334 − 0.63372I 0

u = 1.280880 − 0.143923I

a = 0.77359 − 1.92507I

b = −0.643782 + 1.233920I

1.77334 + 0.63372I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.294700 + 0.130665I

a = 0.30319 − 1.75188I

b = −1.170630 + 0.675828I

2.04315 + 3.44056I 0

u = 1.294700 − 0.130665I

a = 0.30319 + 1.75188I

b = −1.170630 − 0.675828I

2.04315 − 3.44056I 0

u = 1.075950 + 0.773996I

a = 0.346356 − 0.195540I

b = −1.180260 − 0.373125I

−10.84940 − 5.89850I 0

u = 1.075950 − 0.773996I

a = 0.346356 + 0.195540I

b = −1.180260 + 0.373125I

−10.84940 + 5.89850I 0

u = 1.335050 + 0.255112I

a = −0.90176 + 1.98132I

b = 1.135570 − 0.705009I

−8.60939 + 2.09321I 0

u = 1.335050 − 0.255112I

a = −0.90176 − 1.98132I

b = 1.135570 + 0.705009I

−8.60939 − 2.09321I 0

u = −0.095046 + 0.631459I

a = −0.496801 + 1.267380I

b = −1.37659 − 0.50675I

−13.14390 + 1.13556I −8.55420 − 0.03226I

u = −0.095046 − 0.631459I

a = −0.496801 − 1.267380I

b = −1.37659 + 0.50675I

−13.14390 − 1.13556I −8.55420 + 0.03226I

u = −1.351620 + 0.205622I

a = −0.024226 + 0.882590I

b = −1.038360 − 0.313115I

3.21905 − 1.39563I 0

u = −1.351620 − 0.205622I

a = −0.024226 − 0.882590I

b = −1.038360 + 0.313115I

3.21905 + 1.39563I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.313730 + 0.394243I

a = 0.056019 + 0.659577I

b = 1.147300 − 0.264206I

−1.03514 + 5.20228I 0

u = 1.313730 − 0.394243I

a = 0.056019 − 0.659577I

b = 1.147300 + 0.264206I

−1.03514 − 5.20228I 0

u = −1.357810 + 0.216982I

a = −0.55330 + 1.73398I

b = 0.308420 − 1.315980I

3.01469 − 5.61170I 0

u = −1.357810 − 0.216982I

a = −0.55330 − 1.73398I

b = 0.308420 + 1.315980I

3.01469 + 5.61170I 0

u = −1.379540 + 0.031326I

a = 0.69699 + 1.39227I

b = −0.486815 − 0.973303I

4.28030 − 2.60522I 0

u = −1.379540 − 0.031326I

a = 0.69699 − 1.39227I

b = −0.486815 + 0.973303I

4.28030 + 2.60522I 0

u = 1.370240 + 0.187367I

a = 1.26961 − 1.92551I

b = −1.041860 + 0.127705I

−7.44439 + 4.78630I 0

u = 1.370240 − 0.187367I

a = 1.26961 + 1.92551I

b = −1.041860 − 0.127705I

−7.44439 − 4.78630I 0

u = 0.239390 + 0.546734I

a = −1.68003 − 0.75967I

b = −1.083750 + 0.335393I

−1.54209 + 3.82264I −0.07568 − 8.96990I

u = 0.239390 − 0.546734I

a = −1.68003 + 0.75967I

b = −1.083750 − 0.335393I

−1.54209 − 3.82264I −0.07568 + 8.96990I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.391810 + 0.222257I

a = −0.10698 − 1.56171I

b = 1.250250 + 0.503870I

3.67266 − 6.68722I 0

u = −1.391810 − 0.222257I

a = −0.10698 + 1.56171I

b = 1.250250 − 0.503870I

3.67266 + 6.68722I 0

u = −1.32198 + 0.51188I

a = 0.300031 − 1.351340I

b = 1.005000 + 0.620415I

−2.76178 − 7.71289I 0

u = −1.32198 − 0.51188I

a = 0.300031 + 1.351340I

b = 1.005000 − 0.620415I

−2.76178 + 7.71289I 0

u = −1.40594 + 0.20070I

a = 0.443778 − 0.848526I

b = −0.589409 + 0.674801I

3.93805 − 1.47027I 0

u = −1.40594 − 0.20070I

a = 0.443778 + 0.848526I

b = −0.589409 − 0.674801I

3.93805 + 1.47027I 0

u = 0.176451 + 0.548688I

a = 0.987463 + 0.166992I

b = 0.932813 + 0.343087I

−1.44409 − 1.40048I 1.16471 − 2.54727I

u = 0.176451 − 0.548688I

a = 0.987463 − 0.166992I

b = 0.932813 − 0.343087I

−1.44409 + 1.40048I 1.16471 + 2.54727I

u = 1.37131 + 0.39232I

a = −0.065719 − 1.386650I

b = −0.974871 + 0.522895I

2.78263 + 6.10315I 0

u = 1.37131 − 0.39232I

a = −0.065719 + 1.386650I

b = −0.974871 − 0.522895I

2.78263 − 6.10315I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.39372 + 0.34641I

a = −0.439984 − 0.716866I

b = 0.537474 + 0.809666I

−1.36824 + 2.40734I 0

u = 1.39372 − 0.34641I

a = −0.439984 + 0.716866I

b = 0.537474 − 0.809666I

−1.36824 − 2.40734I 0

u = 1.40623 + 0.29514I

a = 0.50972 + 1.49283I

b = −0.170937 − 1.237640I

−3.63110 + 10.38570I 0

u = 1.40623 − 0.29514I

a = 0.50972 − 1.49283I

b = −0.170937 + 1.237640I

−3.63110 − 10.38570I 0

u = 1.44137 + 0.07431I

a = −0.457323 − 1.145870I

b = 0.195596 + 0.830593I

6.96115 + 1.71433I 0

u = 1.44137 − 0.07431I

a = −0.457323 + 1.145870I

b = 0.195596 − 0.830593I

6.96115 − 1.71433I 0

u = −1.42573 + 0.28898I

a = 0.67409 + 1.73211I

b = −1.29458 − 0.73199I

−0.65286 − 6.52840I 0

u = −1.42573 − 0.28898I

a = 0.67409 − 1.73211I

b = −1.29458 + 0.73199I

−0.65286 + 6.52840I 0

u = 0.136945 + 0.525189I

a = −0.234026 + 0.787036I

b = 0.088035 − 1.093760I

−1.76645 + 2.84055I −5.12535 − 7.41118I

u = 0.136945 − 0.525189I

a = −0.234026 − 0.787036I

b = 0.088035 + 1.093760I

−1.76645 − 2.84055I −5.12535 + 7.41118I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.43626 + 0.27026I

a = −0.03467 − 1.53295I

b = −1.312900 + 0.404767I

−2.12327 + 9.20386I 0

u = 1.43626 − 0.27026I

a = −0.03467 + 1.53295I

b = −1.312900 − 0.404767I

−2.12327 − 9.20386I 0

u = −1.44967 + 0.27501I

a = −0.470859 − 1.282600I

b = 0.935619 + 0.271046I

0.81975 − 4.30759I 0

u = −1.44967 − 0.27501I

a = −0.470859 + 1.282600I

b = 0.935619 − 0.271046I

0.81975 + 4.30759I 0

u = −0.444690 + 0.238651I

a = 0.494032 − 0.216745I

b = −0.229109 + 0.464427I

0.875316 − 0.539204I 8.56392 + 3.34487I

u = −0.444690 − 0.238651I

a = 0.494032 + 0.216745I

b = −0.229109 − 0.464427I

0.875316 + 0.539204I 8.56392 − 3.34487I

u = 0.231682 + 0.444621I

a = 1.39827 − 0.99782I

b = 0.1247550 − 0.0207505I

−1.54224 − 0.94902I −3.24191 − 2.63088I

u = 0.231682 − 0.444621I

a = 1.39827 + 0.99782I

b = 0.1247550 + 0.0207505I

−1.54224 + 0.94902I −3.24191 + 2.63088I

u = −1.48951 + 0.18747I

a = 0.338760 − 0.988303I

b = 0.054812 + 0.668005I

2.04907 − 5.05169I 0

u = −1.48951 − 0.18747I

a = 0.338760 + 0.988303I

b = 0.054812 − 0.668005I

2.04907 + 5.05169I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.46206 + 0.34712I

a = −0.45408 + 1.64902I

b = 1.34151 − 0.67420I

−0.41844 + 12.52450I 0

u = 1.46206 − 0.34712I

a = −0.45408 − 1.64902I

b = 1.34151 + 0.67420I

−0.41844 − 12.52450I 0

u = −0.117083 + 0.475098I

a = 1.09475 − 3.21547I

b = 1.281850 + 0.018230I

−12.26510 − 2.33618I −10.53285 + 3.12812I

u = −0.117083 − 0.475098I

a = 1.09475 + 3.21547I

b = 1.281850 − 0.018230I

−12.26510 + 2.33618I −10.53285 − 3.12812I

u = 1.51553 + 0.04926I

a = −0.266853 − 0.907652I

b = 0.841983 + 0.604287I

0.423741 + 1.047520I 0

u = 1.51553 − 0.04926I

a = −0.266853 + 0.907652I

b = 0.841983 − 0.604287I

0.423741 − 1.047520I 0

u = −1.46779 + 0.40036I

a = 0.28041 + 1.65642I

b = −1.35365 − 0.64128I

−7.3788 − 16.9573I 0

u = −1.46779 − 0.40036I

a = 0.28041 − 1.65642I

b = −1.35365 + 0.64128I

−7.3788 + 16.9573I 0

u = −1.60867 + 0.21300I

a = −0.624560 − 0.561577I

b = 0.816195 + 0.103220I

1.26198 − 4.34942I 0

u = −1.60867 − 0.21300I

a = −0.624560 + 0.561577I

b = 0.816195 − 0.103220I

1.26198 + 4.34942I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.66835

a = 0.793424

b = −0.838679

4.88689 0

u = 0.258533 + 0.051841I

a = −1.52355 − 0.14854I

b = 0.659382 − 0.673270I

−0.93662 + 2.23751I 7.62015 − 5.07795I

u = 0.258533 − 0.051841I

a = −1.52355 + 0.14854I

b = 0.659382 + 0.673270I

−0.93662 − 2.23751I 7.62015 + 5.07795I

II. I

= h−14120u

+ 4722u

+ · · · + 7787b − 8083, 18524u

+ 2179u

· · · + 7787a − 2475, u

− 14u

+ · · · + 4u

+ 1i

(i) Arc colorings











−u





−2.37884u

− 0.279825u

+ ··· − 1.25029u + 0.317837

1.81328u

− 0.606395u

+ ··· − 0.629125u + 1.03801





−u

+ u





−2.82561u

− 2.83254u

+ ··· + 5.07590u + 2.51470

1.37884u

− 1.72017u

+ ··· + 0.250289u + 0.682163





−u

+ 1

− 2u





−0.565558u

− 0.886221u

+ ··· − 1.87941u + 1.35585

1.81328u

− 0.606395u

+ ··· − 0.629125u + 1.03801





3.44728u

− 1.01233u

+ ··· − 3.80313u + 0.446770

−0.740979u

− 1.92359u

+ ··· − 1.00141u + 0.553872





1.76178u

+ 5.03930u

+ ··· − 0.315012u − 2.48658

−1.01233u

+ 5.56106u

+ ··· + 2.44677u − 4.44728





2.29986u

+ 1.15539u

+ ··· − 2.91884u + 1.72300

3.97059u

+ 4.34879u

+ ··· − 2.19468u − 3.84821





4.82612u

− 0.732503u

+ ··· − 2.55284u + 0.128933

1.27135u

− 0.484654u

+ ··· − 2.44818u − 0.998844



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

55565

7787

9124

7787

+ ··· +

61630

7787

u −

61674

7787

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· + 9u − 1

− 9u

+ ··· − 9u

+ 1

+ 5u

+ ··· − u − 1

+ 9u

+ ··· + 6u + 1

− 14u

+ ··· − 4u

− 1

− 5u

+ ··· − u + 1

, c

− u

+ ··· + 2u

+ 1

− 9u

+ ··· + 9u

− 1

, c

− 14u

+ ··· + 4u

+ 1

+ u

+ ··· − 2u

− 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 5y

+ ··· + 9y −1

, c

− 18y

+ ··· + 18y −1

, c

− 27y

+ ··· + 23y −1

+ 4y

+ ··· − 28y −1

, c

− 28y

+ ··· − 8y −1

, c

+ 31y

+ ··· − 4y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.178461 + 1.059330I

a = −0.501654 + 0.038992I

b = −0.914813 + 0.304102I

−4.49201 + 1.28363I 0.00863 − 4.75604I

u = −0.178461 − 1.059330I

a = −0.501654 − 0.038992I

b = −0.914813 − 0.304102I

−4.49201 − 1.28363I 0.00863 + 4.75604I

u = 1.225950 + 0.044396I

a = −0.053533 − 1.197970I

b = 1.43699 + 0.21234I

−8.81556 + 2.23652I −2.93770 − 1.86369I

u = 1.225950 − 0.044396I

a = −0.053533 + 1.197970I

b = 1.43699 − 0.21234I

−8.81556 − 2.23652I −2.93770 + 1.86369I

u = −1.23985

a = 0.132233

b = −1.57234

−3.33235 12.7060

u = −1.278010 + 0.160463I

a = −0.90757 − 2.42130I

b = 0.747351 + 0.401554I

−5.96314 − 5.05182I 1.73722 + 6.44260I

u = −1.278010 − 0.160463I

a = −0.90757 + 2.42130I

b = 0.747351 − 0.401554I

−5.96314 + 5.05182I 1.73722 − 6.44260I

u = −0.566521 + 0.372171I

a = −2.24929 + 1.20168I

b = −0.750776 + 0.202122I

−8.70764 + 3.10431I −8.61462 − 1.93050I

u = −0.566521 − 0.372171I

a = −2.24929 − 1.20168I

b = −0.750776 − 0.202122I

−8.70764 − 3.10431I −8.61462 + 1.93050I

u = 0.263208 + 0.612353I

a = 1.153050 − 0.124169I

b = 0.792168 + 0.355618I

−1.87135 − 1.81844I −7.99122 + 8.03791I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.263208 − 0.612353I

a = 1.153050 + 0.124169I

b = 0.792168 − 0.355618I

−1.87135 + 1.81844I −7.99122 − 8.03791I

u = 0.637005 + 0.108893I

a = 1.73464 + 0.81603I

b = −1.320340 + 0.115354I

−11.08090 − 1.68505I −3.83078 + 0.31507I

u = 0.637005 − 0.108893I

a = 1.73464 − 0.81603I

b = −1.320340 − 0.115354I

−11.08090 + 1.68505I −3.83078 − 0.31507I

u = −1.351200 + 0.130165I

a = 0.69406 − 1.41117I

b = −0.795438 + 0.980456I

3.04368 + 0.34981I 3.57563 − 0.23318I

u = −1.351200 − 0.130165I

a = 0.69406 + 1.41117I

b = −0.795438 − 0.980456I

3.04368 − 0.34981I 3.57563 + 0.23318I

u = 1.357980 + 0.272155I

a = 0.23312 − 1.66014I

b = −1.020190 + 0.550891I

2.07234 + 5.20061I 0.94399 − 4.84173I

u = 1.357980 − 0.272155I

a = 0.23312 + 1.66014I

b = −1.020190 − 0.550891I

2.07234 − 5.20061I 0.94399 + 4.84173I

u = 1.383990 + 0.120392I

a = 0.37532 − 1.45684I

b = −0.145971 + 0.867562I

3.18073 + 3.53763I 1.86571 − 4.35233I

u = 1.383990 − 0.120392I

a = 0.37532 + 1.45684I

b = −0.145971 − 0.867562I

3.18073 − 3.53763I 1.86571 + 4.35233I

u = −0.589097

a = −1.85264

b = 1.38999

−5.80436 −9.10980

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.37965 + 0.42301I

a = 0.072793 − 1.134180I

b = 1.142380 + 0.418935I

−0.41807 − 6.63882I 0. + 6.47149I

u = −1.37965 − 0.42301I

a = 0.072793 + 1.134180I

b = 1.142380 − 0.418935I

−0.41807 + 6.63882I 0. − 6.47149I

u = −1.58090

a = 0.00497375

b = −0.429374

5.63913 9.77320

u = 1.57624 + 0.26978I

a = −0.321916 − 0.141330I

b = 0.621577 + 0.225495I

1.72667 + 3.65087I 3.09245 + 1.60166I

u = 1.57624 − 0.26978I

a = −0.321916 + 0.141330I

b = 0.621577 − 0.225495I

1.72667 − 3.65087I 3.09245 − 1.60166I

u = 0.014394 + 0.311217I

a = 0.62869 − 1.94450I

b = 0.512933 + 0.784386I

−1.46957 − 2.03695I −5.03324 − 0.05675I

u = 0.014394 − 0.311217I

a = 0.62869 + 1.94450I

b = 0.512933 − 0.784386I

−1.46957 + 2.03695I −5.03324 + 0.05675I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 9u

+ ··· + 9u − 1)

· (u

103

− 4u

102

+ ··· + 63177613u − 8582393)

− 9u

+ ··· − 9u

+ 1)(u

103

− u

102

+ ··· + 1650u + 121)

+ 5u

+ ··· − u − 1)(u

103

− 43u

101

+ ··· + 295139u + 37247)

+ 9u

+ ··· + 6u + 1)(u

103

+ 3u

102

+ ··· − 1835136u − 186624)

− 14u

+ ··· − 4u

− 1)(u

103

− u

102

+ ··· + 988u + 173)

− 5u

+ ··· − u + 1)(u

103

− 43u

101

+ ··· + 295139u + 37247)

, c

− u

+ ··· + 2u

+ 1)(u

103

− 2u

102

+ ··· − 30u − 1)

− 9u

+ ··· + 9u

− 1)(u

103

− u

102

+ ··· + 1650u + 121)

, c

− 14u

+ ··· + 4u

+ 1)(u

103

− u

102

+ ··· + 988u + 173)

+ u

+ ··· − 2u

− 1)(u

103

− 2u

102

+ ··· − 30u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 5y

+ ··· + 9y −1)

· (y

103

− 52y

102

+ ··· + 1577684931052899y −73657469606449)

, c

− 18y

+ ··· + 18y −1)

· (y

103

− 65y

102

+ ··· + 1848880y −14641)

, c

− 27y

+ ··· + 23y −1)

· (y

103

− 86y

102

+ ··· + 48391156629y −1387339009)

+ 4y

+ ··· − 28y −1)

· (y

103

+ 17y

102

+ ··· − 8707129344y −34828517376)

, c

− 28y

+ ··· − 8y −1)(y

103

− 95y

102

+ ··· + 361302y −29929)

, c

+ 31y

+ ··· − 4y −1)(y

103

+ 108y

102

+ ··· + 550y −1)