12a

0671

(K12a

0671

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,7 3,11

4 1 6 8 12 9 10 5

, c

Ideals for irreducible components

of X

par

= h−1.92237 × 10

100

108

− 3.61566 × 10

100

107

+ ··· + 1.78606 × 10

100

b − 3.08465 × 10

100

− 2.89446 × 10

101

108

− 5.42772 × 10

101

107

+ ··· + 1.78606 × 10

100

a − 1.31985 × 10

101

109

+ u

108

+ ··· + 10u − 1i

= h−u

− u

+ ··· + b − 3, −u

+ 2u

+ ··· + a − 1, u

− 5u

+ ··· − 3u + 1i

* 2 irreducible components of dim

= 0, with total 132 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

= h−1.92 × 10

100

108

− 3.62 × 10

100

107

+ · · · + 1.79 × 10

100

b − 3.08 ×

100

, −2.89 × 10

101

108

− 5.43 × 10

101

107

+ · · · + 1.79 × 10

100

a − 1.32 ×

101

, u

109

+ u

108

+ · · · + 10u − 1i

(i) Arc colorings















16.2058u

108

+ 30.3893u

107

+ ··· − 103.585u + 7.38970

1.07632u

108

+ 2.02437u

107

+ ··· − 24.4693u + 1.72707





16.1376u

108

+ 29.6267u

107

+ ··· − 211.100u + 13.6064

−0.507290u

108

+ 0.244275u

107

+ ··· − 19.1382u + 2.40150





−u

+ 1

−u









−u

+ u





13.4025u

108

+ 25.0901u

107

+ ··· − 70.9837u + 3.69015

2.66737u

108

+ 4.81907u

107

+ ··· − 40.4827u + 3.47285





−3.92705u

108

− 7.20511u

107

+ ··· + 123.240u − 24.3039

0.837452u

108

+ 1.66048u

107

+ ··· − 24.7677u + 2.01931





13.6961u

108

+ 25.6228u

107

+ ··· − 64.9328u + 3.98819

4.49802u

108

+ 8.50763u

107

+ ··· − 61.1198u + 5.92669





10.8262u

108

+ 20.1177u

107

+ ··· − 241.671u + 34.8996

1.08067u

108

+ 3.65306u

107

+ ··· − 4.07720u + 1.97100



(ii) Obstruction class = −1

(iii) Cusp Shapes = 11.1833u

108

+ 17.5047u

107

+ ··· − 122.870u + 3.28325

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

109

+ 37u

108

+ ··· − 60u + 1

, c

109

− u

108

+ ··· + 10u + 1

109

− 2u

108

+ ··· − 459u + 1

, c

109

+ 2u

108

+ ··· + 40u − 1

, c

109

− u

108

+ ··· − 97637u − 7349

109

+ 18u

108

+ ··· − 362u − 23

109

+ 9u

108

+ ··· − 14547114u − 1528393

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

109

+ 79y

108

+ ··· − 2776y −1

, c

109

− 37y

108

+ ··· − 60y −1

109

− 6y

108

+ ··· + 216063y −1

, c

109

− 114y

108

+ ··· + 452y −1

, c

109

− 87y

108

+ ··· + 1137045229y −54007801

109

− 2y

108

+ ··· + 48520y −529

109

+ 39y

108

+ ··· − 12624874256492y −2335985162449

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.757521 + 0.654861I

a = −2.38158 − 1.74417I

b = 0.08276 − 2.88669I

−7.43416 − 3.17097I 0

u = 0.757521 − 0.654861I

a = −2.38158 + 1.74417I

b = 0.08276 + 2.88669I

−7.43416 + 3.17097I 0

u = 0.729944 + 0.700232I

a = −2.08691 + 0.64492I

b = −1.57108 − 0.46927I

−6.85009 + 2.62379I 0

u = 0.729944 − 0.700232I

a = −2.08691 − 0.64492I

b = −1.57108 + 0.46927I

−6.85009 − 2.62379I 0

u = −0.780734 + 0.671106I

a = 1.84205 − 1.35198I

b = −1.00815 − 2.28812I

−7.08845 − 1.59430I 0

u = −0.780734 − 0.671106I

a = 1.84205 + 1.35198I

b = −1.00815 + 2.28812I

−7.08845 + 1.59430I 0

u = −0.968406 + 0.021685I

a = 0.127612 + 1.101330I

b = 1.49378 − 0.11378I

−11.75740 + 2.95734I 0

u = −0.968406 − 0.021685I

a = 0.127612 − 1.101330I

b = 1.49378 + 0.11378I

−11.75740 − 2.95734I 0

u = 0.548077 + 0.879929I

a = 1.154190 + 0.225490I

b = 0.448255 + 1.259180I

−1.42401 + 2.06555I 0

u = 0.548077 − 0.879929I

a = 1.154190 − 0.225490I

b = 0.448255 − 1.259180I

−1.42401 − 2.06555I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.754622 + 0.712142I

a = 0.836552 − 0.225810I

b = −0.126127 + 0.404393I

−6.45582 + 2.81407I 0

u = −0.754622 − 0.712142I

a = 0.836552 + 0.225810I

b = −0.126127 − 0.404393I

−6.45582 − 2.81407I 0

u = 0.946926 + 0.127529I

a = 0.303704 + 1.195290I

b = 0.994773 − 0.391677I

−4.71729 − 1.89289I 0

u = 0.946926 − 0.127529I

a = 0.303704 − 1.195290I

b = 0.994773 + 0.391677I

−4.71729 + 1.89289I 0

u = 1.021810 + 0.231255I

a = −0.33715 − 1.62559I

b = −0.192202 − 1.057940I

−7.48971 − 5.29882I 0

u = 1.021810 − 0.231255I

a = −0.33715 + 1.62559I

b = −0.192202 + 1.057940I

−7.48971 + 5.29882I 0

u = 0.664417 + 0.818130I

a = 0.0197069 − 0.0953946I

b = −0.304121 − 0.380597I

0.172315 + 1.189790I 0

u = 0.664417 − 0.818130I

a = 0.0197069 + 0.0953946I

b = −0.304121 + 0.380597I

0.172315 − 1.189790I 0

u = 0.942960 + 0.024224I

a = −1.61556 + 1.70960I

b = −1.75996 + 0.62059I

−11.32070 + 2.15172I 0

u = 0.942960 − 0.024224I

a = −1.61556 − 1.70960I

b = −1.75996 − 0.62059I

−11.32070 − 2.15172I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.667180 + 0.825815I

a = 1.223070 − 0.294645I

b = 0.43878 − 1.46808I

3.60134 − 0.88112I 0

u = −0.667180 − 0.825815I

a = 1.223070 + 0.294645I

b = 0.43878 + 1.46808I

3.60134 + 0.88112I 0

u = −0.910297 + 0.182675I

a = 0.05108 + 1.53159I

b = −0.012611 + 0.601094I

−1.11784 + 3.25568I 0

u = −0.910297 − 0.182675I

a = 0.05108 − 1.53159I

b = −0.012611 − 0.601094I

−1.11784 − 3.25568I 0

u = −0.916467 + 0.105962I

a = −1.47933 + 0.80832I

b = −1.295740 + 0.156353I

−4.63698 + 1.54505I 0

u = −0.916467 − 0.105962I

a = −1.47933 − 0.80832I

b = −1.295740 − 0.156353I

−4.63698 − 1.54505I 0

u = −1.045770 + 0.260850I

a = 0.425415 − 0.295608I

b = −0.361374 + 0.044575I

−7.36479 + 0.95992I 0

u = −1.045770 − 0.260850I

a = 0.425415 + 0.295608I

b = −0.361374 − 0.044575I

−7.36479 − 0.95992I 0

u = −0.746972 + 0.785182I

a = −1.62030 + 1.68357I

b = 0.52640 + 2.71040I

1.23609 − 0.96235I 0

u = −0.746972 − 0.785182I

a = −1.62030 − 1.68357I

b = 0.52640 − 2.71040I

1.23609 + 0.96235I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.874340 + 0.640439I

a = −1.66960 − 1.62311I

b = −2.20161 − 0.84243I

−2.14128 + 2.49432I 0

u = −0.874340 − 0.640439I

a = −1.66960 + 1.62311I

b = −2.20161 + 0.84243I

−2.14128 − 2.49432I 0

u = −1.070630 + 0.211523I

a = 0.282338 − 0.931420I

b = 0.737697 + 0.025450I

−5.45009 + 7.28829I 0

u = −1.070630 − 0.211523I

a = 0.282338 + 0.931420I

b = 0.737697 − 0.025450I

−5.45009 − 7.28829I 0

u = 0.801613 + 0.741980I

a = 1.177120 + 0.672387I

b = −0.31159 + 1.41483I

0.744030 + 0.275497I 0

u = 0.801613 − 0.741980I

a = 1.177120 − 0.672387I

b = −0.31159 − 1.41483I

0.744030 − 0.275497I 0

u = 0.872388 + 0.660519I

a = 0.736952 + 0.278844I

b = −0.149117 − 0.307104I

−1.81293 − 2.56112I 0

u = 0.872388 − 0.660519I

a = 0.736952 − 0.278844I

b = −0.149117 + 0.307104I

−1.81293 + 2.56112I 0

u = −0.820702 + 0.731951I

a = 1.48065 − 0.83125I

b = 0.60292 − 2.46462I

3.23107 + 1.73998I 0

u = −0.820702 − 0.731951I

a = 1.48065 + 0.83125I

b = 0.60292 + 2.46462I

3.23107 − 1.73998I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.708595 + 0.849766I

a = −1.32481 − 1.23680I

b = 0.45487 − 2.33477I

1.63542 + 7.05819I 0

u = 0.708595 − 0.849766I

a = −1.32481 + 1.23680I

b = 0.45487 + 2.33477I

1.63542 − 7.05819I 0

u = 0.766882 + 0.798279I

a = 1.117560 + 0.523483I

b = 0.33869 + 2.07687I

5.09592 + 1.88312I 0

u = 0.766882 − 0.798279I

a = 1.117560 − 0.523483I

b = 0.33869 − 2.07687I

5.09592 − 1.88312I 0

u = −0.666831 + 0.886363I

a = −1.29237 + 0.96663I

b = 0.32549 + 2.22228I

−5.21668 − 11.49540I 0

u = −0.666831 − 0.886363I

a = −1.29237 − 0.96663I

b = 0.32549 − 2.22228I

−5.21668 + 11.49540I 0

u = −0.730286 + 0.840472I

a = 0.962529 − 0.334195I

b = 0.24024 − 1.99358I

−0.47926 − 4.63607I 0

u = −0.730286 − 0.840472I

a = 0.962529 + 0.334195I

b = 0.24024 + 1.99358I

−0.47926 + 4.63607I 0

u = −0.203735 + 0.847268I

a = −0.913823 − 0.702131I

b = −0.518050 + 0.019884I

−7.91294 + 7.70080I 0

u = −0.203735 − 0.847268I

a = −0.913823 + 0.702131I

b = −0.518050 − 0.019884I

−7.91294 − 7.70080I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.071400 + 0.359084I

a = −0.844959 + 0.309902I

b = −0.831384 + 0.443664I

−4.60132 + 0.47894I 0

u = 1.071400 − 0.359084I

a = −0.844959 − 0.309902I

b = −0.831384 − 0.443664I

−4.60132 − 0.47894I 0

u = −0.933882 + 0.673532I

a = −2.29363 − 0.35276I

b = −1.72152 + 2.45983I

−7.56388 + 6.81266I 0

u = −0.933882 − 0.673532I

a = −2.29363 + 0.35276I

b = −1.72152 − 2.45983I

−7.56388 − 6.81266I 0

u = 0.944981 + 0.664181I

a = 2.63039 + 0.99923I

b = 1.49622 + 3.27706I

−8.01374 − 1.97896I 0

u = 0.944981 − 0.664181I

a = 2.63039 − 0.99923I

b = 1.49622 − 3.27706I

−8.01374 + 1.97896I 0

u = −0.825360 + 0.810730I

a = −0.351958 + 0.038361I

b = −0.461158 + 0.784953I

3.69246 + 2.73336I 0

u = −0.825360 − 0.810730I

a = −0.351958 − 0.038361I

b = −0.461158 − 0.784953I

3.69246 − 2.73336I 0

u = −0.914569 + 0.714983I

a = −2.01266 + 1.15756I

b = −0.42735 + 2.28739I

2.94037 + 3.78002I 0

u = −0.914569 − 0.714983I

a = −2.01266 − 1.15756I

b = −0.42735 − 2.28739I

2.94037 − 3.78002I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.803599 + 0.854536I

a = 1.147680 + 0.373908I

b = 0.242272 + 1.334430I

0.412018 − 0.093629I 0

u = 0.803599 − 0.854536I

a = 1.147680 − 0.373908I

b = 0.242272 − 1.334430I

0.412018 + 0.093629I 0

u = 1.158320 + 0.190368I

a = 0.167754 + 0.893444I

b = 0.764203 + 0.173838I

−12.5905 − 10.9283I 0

u = 1.158320 − 0.190368I

a = 0.167754 − 0.893444I

b = 0.764203 − 0.173838I

−12.5905 + 10.9283I 0

u = 1.17539

a = 0.146207

b = −0.458837

−2.69505 0

u = −0.952369 + 0.691740I

a = 0.681656 − 0.231065I

b = −0.228720 + 0.289424I

−7.05734 + 2.58024I 0

u = −0.952369 − 0.691740I

a = 0.681656 + 0.231065I

b = −0.228720 − 0.289424I

−7.05734 − 2.58024I 0

u = 0.961775 + 0.681851I

a = −0.53426 + 1.66060I

b = −1.36616 + 1.77671I

−7.54900 − 7.95504I 0

u = 0.961775 − 0.681851I

a = −0.53426 − 1.66060I

b = −1.36616 − 1.77671I

−7.54900 + 7.95504I 0

u = 0.818966 + 0.001554I

a = 0.580471 − 0.902945I

b = −0.152851 − 0.091712I

−1.210960 − 0.096547I −9.04698 − 0.49427I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.818966 − 0.001554I

a = 0.580471 + 0.902945I

b = −0.152851 + 0.091712I

−1.210960 + 0.096547I −9.04698 + 0.49427I

u = 0.942952 + 0.731192I

a = −1.396530 − 0.114290I

b = −0.91940 − 1.78644I

0.31573 − 5.89812I 0

u = 0.942952 − 0.731192I

a = −1.396530 + 0.114290I

b = −0.91940 + 1.78644I

0.31573 + 5.89812I 0

u = −0.927838 + 0.761144I

a = 0.785208 − 0.313176I

b = 0.127500 − 0.639227I

3.36844 + 3.15964I 0

u = −0.927838 − 0.761144I

a = 0.785208 + 0.313176I

b = 0.127500 + 0.639227I

3.36844 − 3.15964I 0

u = −0.976002 + 0.728365I

a = 2.62210 − 0.71878I

b = 1.73953 − 2.92434I

0.53617 + 6.68025I 0

u = −0.976002 − 0.728365I

a = 2.62210 + 0.71878I

b = 1.73953 + 2.92434I

0.53617 − 6.68025I 0

u = 0.968498 + 0.743013I

a = −1.79542 − 0.92011I

b = −0.34001 − 2.09047I

4.47723 − 7.68572I 0

u = 0.968498 − 0.743013I

a = −1.79542 + 0.92011I

b = −0.34001 + 2.09047I

4.47723 + 7.68572I 0

u = −1.24354

a = −0.295996

b = −0.455578

−6.34486 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.163740 + 0.461882I

a = −0.588565 − 0.524656I

b = −0.625090 − 0.695124I

−10.96190 − 2.93658I 0

u = −1.163740 − 0.461882I

a = −0.588565 + 0.524656I

b = −0.625090 + 0.695124I

−10.96190 + 2.93658I 0

u = 0.950969 + 0.815183I

a = −0.842568 − 0.412919I

b = −0.40778 − 1.48632I

−0.03050 − 6.07730I 0

u = 0.950969 − 0.815183I

a = −0.842568 + 0.412919I

b = −0.40778 + 1.48632I

−0.03050 + 6.07730I 0

u = −1.003750 + 0.750910I

a = −1.74420 + 0.88401I

b = −0.21123 + 2.09136I

−1.32070 + 10.58130I 0

u = −1.003750 − 0.750910I

a = −1.74420 − 0.88401I

b = −0.21123 − 2.09136I

−1.32070 − 10.58130I 0

u = −1.25820

a = 0.284074

b = −0.465152

−8.00030 0

u = 1.027540 + 0.728234I

a = 0.543272 + 0.238605I

b = 0.182750 + 0.291395I

−0.91543 − 7.00074I 0

u = 1.027540 − 0.728234I

a = 0.543272 − 0.238605I

b = 0.182750 − 0.291395I

−0.91543 + 7.00074I 0

u = 1.017960 + 0.746887I

a = 2.25197 + 0.69689I

b = 1.39089 + 2.59915I

0.68520 − 13.01410I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.017960 − 0.746887I

a = 2.25197 − 0.69689I

b = 1.39089 − 2.59915I

0.68520 + 13.01410I 0

u = −1.033980 + 0.727418I

a = −1.17694 + 0.90389I

b = −0.30445 + 1.89924I

2.49119 + 6.71148I 0

u = −1.033980 − 0.727418I

a = −1.17694 − 0.90389I

b = −0.30445 − 1.89924I

2.49119 − 6.71148I 0

u = 0.108092 + 0.727423I

a = −0.705735 + 1.003590I

b = −0.527076 + 0.119547I

−1.57724 − 4.30851I −5.52161 + 6.58902I

u = 0.108092 − 0.727423I

a = −0.705735 − 1.003590I

b = −0.527076 − 0.119547I

−1.57724 + 4.30851I −5.52161 − 6.58902I

u = −1.051310 + 0.744994I

a = 2.08694 − 0.83411I

b = 1.12414 − 2.59974I

−6.4016 + 17.5413I 0

u = −1.051310 − 0.744994I

a = 2.08694 + 0.83411I

b = 1.12414 + 2.59974I

−6.4016 − 17.5413I 0

u = 1.093810 + 0.705186I

a = −0.99628 − 1.06833I

b = −0.21003 − 1.86783I

−3.06078 − 7.93711I 0

u = 1.093810 − 0.705186I

a = −0.99628 + 1.06833I

b = −0.21003 + 1.86783I

−3.06078 + 7.93711I 0

u = −0.029661 + 0.692248I

a = 1.018070 + 0.036268I

b = 0.263082 + 0.549286I

−4.07915 + 2.29856I −6.57680 − 3.02901I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.029661 − 0.692248I

a = 1.018070 − 0.036268I

b = 0.263082 − 0.549286I

−4.07915 − 2.29856I −6.57680 + 3.02901I

u = 0.578823

a = 0.741496

b = 1.55224

−0.192881 −16.6490

u = −0.092449 + 0.484993I

a = 1.041030 − 0.007572I

b = 0.568714 − 0.349700I

1.36305 − 0.94955I 2.45800 + 2.47868I

u = −0.092449 − 0.484993I

a = 1.041030 + 0.007572I

b = 0.568714 + 0.349700I

1.36305 + 0.94955I 2.45800 − 2.47868I

u = 0.452989

a = 1.07847

b = −0.150343

−0.830225 −12.7340

u = 0.019446 + 0.429177I

a = 0.09959 − 2.20834I

b = −0.513030 − 0.399473I

−1.93503 + 0.05091I −6.94725 + 0.20740I

u = 0.019446 − 0.429177I

a = 0.09959 + 2.20834I

b = −0.513030 + 0.399473I

−1.93503 − 0.05091I −6.94725 − 0.20740I

u = 0.0597196 + 0.1121540I

a = −7.86863 + 7.87250I

b = −0.536157 − 1.042880I

−8.63048 − 2.56248I −10.54077 − 0.24573I

u = 0.0597196 − 0.1121540I

a = −7.86863 − 7.87250I

b = −0.536157 + 1.042880I

−8.63048 + 2.56248I −10.54077 + 0.24573I

II.

= h−u

−u

+· · ·+b−3, −u

+2u

+· · ·+a−1, u

−5u

+· · ·−3u+1i

(i) Arc colorings















− 2u

+ ··· − 7u + 1

+ u

+ ··· − 4u + 3





−2u

+ u

+ ··· + 10u + 1

− 5u

+ ··· + 2u − 2





−u

+ 1

−u









−u

+ u





− 2u

+ ··· − 9u

− 4u

−u

+ u

+ ··· − 4u + 3





−3u

+ 3u

+ ··· + 10u − 3

−3u

+ 14u

+ ··· + 9u − 1





− u

+ ··· − 2u − 2

−u

+ 3u

+ ··· − 2u + 2





−4u

+ u

+ ··· − 3u + 4

− 3u

+ ··· − 10u + 2



(ii) Obstruction class = 1

(iii) Cusp Shapes

= −7u

−u

+36u

−3u

−117u

+18u

+265u

−67u

−458u

+154u

+631u

−

260u

−695u

+340u

+619u

−336u

−430u

+251u

+220u

−130u

−71u

+35u−2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 10u

+ ··· + 23u − 1

− 5u

+ ··· − 3u + 1

+ u

+ ··· − 4u − 1

, c

+ u

+ ··· − 3u − 1

− 5u

+ ··· − 3u − 1

+ 10u

+ ··· + 23u + 1

+ 4u

+ ··· − 12u

+ 1

− u

+ ··· − 3u + 1

− u

+ ··· + 5u + 1

− 4u

+ ··· + 12u

− 1

− 4u

+ ··· − u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 14y

+ ··· + 179y −1

, c

− 10y

+ ··· + 23y −1

+ y

+ ··· + 6y −1

, c

− 27y

+ ··· + 7y −1

, c

− 24y

+ ··· + 24y −1

+ y

+ ··· + 23y −1

− 6y

+ ··· − y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.960230 + 0.247738I

a = −0.445421 − 0.857887I

b = −1.22857 − 1.02551I

−10.05340 − 1.12097I −13.32091 − 0.98428I

u = −0.960230 − 0.247738I

a = −0.445421 + 0.857887I

b = −1.22857 + 1.02551I

−10.05340 + 1.12097I −13.32091 + 0.98428I

u = 0.819933 + 0.661161I

a = 2.49158 + 0.93915I

b = 0.22799 + 2.02762I

−7.17279 + 0.56278I −10.70035 + 2.99996I

u = 0.819933 − 0.661161I

a = 2.49158 − 0.93915I

b = 0.22799 − 2.02762I

−7.17279 − 0.56278I −10.70035 − 2.99996I

u = −0.738987 + 0.776088I

a = 1.54837 − 0.74664I

b = 0.30338 − 2.02562I

2.89135 + 0.01929I −5.10768 − 1.05060I

u = −0.738987 − 0.776088I

a = 1.54837 + 0.74664I

b = 0.30338 + 2.02562I

2.89135 − 0.01929I −5.10768 + 1.05060I

u = 0.626664 + 0.874633I

a = 0.679915 + 0.210529I

b = 0.302668 + 1.034050I

0.85084 + 1.83901I −3.05731 − 3.59039I

u = 0.626664 − 0.874633I

a = 0.679915 − 0.210529I

b = 0.302668 − 1.034050I

0.85084 − 1.83901I −3.05731 + 3.59039I

u = −0.867766 + 0.676830I

a = 1.102970 + 0.481941I

b = 0.803757 + 0.484383I

−1.13113 + 2.61495I −2.02389 − 3.77185I

u = −0.867766 − 0.676830I

a = 1.102970 − 0.481941I

b = 0.803757 − 0.484383I

−1.13113 − 2.61495I −2.02389 + 3.77185I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.11398

a = 0.0770912

b = −0.605386

−2.92512 −22.8200

u = 0.912182 + 0.656074I

a = −1.26157 − 0.67309I

b = −0.45247 − 2.56173I

−7.46677 − 5.68039I −10.93348 + 3.53167I

u = 0.912182 − 0.656074I

a = −1.26157 + 0.67309I

b = −0.45247 + 2.56173I

−7.46677 + 5.68039I −10.93348 − 3.53167I

u = 0.829536 + 0.188784I

a = −1.42070 − 0.44554I

b = −1.070560 + 0.384071I

−3.88437 − 0.86790I −11.41308 − 0.75638I

u = 0.829536 − 0.188784I

a = −1.42070 + 0.44554I

b = −1.070560 − 0.384071I

−3.88437 + 0.86790I −11.41308 + 0.75638I

u = −0.745541 + 0.273275I

a = −2.60016 + 1.02472I

b = −0.518795 + 0.751084I

−9.23121 + 3.43605I −15.5954 − 5.1539I

u = −0.745541 − 0.273275I

a = −2.60016 − 1.02472I

b = −0.518795 − 0.751084I

−9.23121 − 3.43605I −15.5954 + 5.1539I

u = −0.981898 + 0.726177I

a = −1.65996 + 0.88439I

b = −0.68579 + 2.28734I

2.15154 + 5.67157I −6.20081 − 3.57747I

u = −0.981898 − 0.726177I

a = −1.65996 − 0.88439I

b = −0.68579 − 2.28734I

2.15154 − 5.67157I −6.20081 + 3.57747I

u = −1.29626

a = 0.174740

b = −0.206960

−6.05347 4.81490

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.060990 + 0.746848I

a = −0.941055 − 0.587804I

b = −0.273001 − 1.296020I

−0.44369 − 7.85664I −6.66007 + 9.03938I

u = 1.060990 − 0.746848I

a = −0.941055 + 0.587804I

b = −0.273001 + 1.296020I

−0.44369 + 7.85664I −6.66007 − 9.03938I

u = 0.272505

a = −1.23978

b = 0.995105

0.290959 1.03140

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 10u

+ ··· + 23u − 1)(u

109

+ 37u

108

+ ··· − 60u + 1)

− 5u

+ ··· − 3u + 1)(u

109

− u

108

+ ··· + 10u + 1)

+ u

+ ··· − 4u − 1)(u

109

− 2u

108

+ ··· − 459u + 1)

, c

+ u

+ ··· − 3u − 1)(u

109

+ 2u

108

+ ··· + 40u − 1)

− 5u

+ ··· − 3u − 1)(u

109

− u

108

+ ··· + 10u + 1)

+ 10u

+ ··· + 23u + 1)(u

109

+ 37u

108

+ ··· − 60u + 1)

+ 4u

+ ··· − 12u

+ 1)(u

109

− u

108

+ ··· − 97637u − 7349)

− u

+ ··· − 3u + 1)(u

109

+ 2u

108

+ ··· + 40u − 1)

− u

+ ··· + 5u + 1)(u

109

+ 18u

108

+ ··· − 362u − 23)

− 4u

+ ··· + 12u

− 1)(u

109

− u

108

+ ··· − 97637u − 7349)

− 4u

+ ··· − u + 1)(u

109

+ 9u

108

+ ··· − 1.45471 × 10

u − 1528393)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 14y

+ ··· + 179y −1)(y

109

+ 79y

108

+ ··· − 2776y −1)

, c

− 10y

+ ··· + 23y −1)(y

109

− 37y

108

+ ··· − 60y −1)

+ y

+ ··· + 6y −1)(y

109

− 6y

108

+ ··· + 216063y −1)

, c

− 27y

+ ··· + 7y −1)(y

109

− 114y

108

+ ··· + 452y −1)

, c

− 24y

+ ··· + 24y −1)

· (y

109

− 87y

108

+ ··· + 1137045229y −54007801)

+ y

+ ··· + 23y −1)(y

109

− 2y

108

+ ··· + 48520y −529)

− 6y

+ ··· − y −1)

· (y

109

+ 39y

108

+ ··· − 12624874256492y −2335985162449)