12a

0621

(K12a

0621

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,6

3,10

4 11 1 5 8 9 12

, c

Ideals for irreducible components

of X

par

= h−1.20239 × 10

215

107

+ 1.87947 × 10

215

106

+ ··· + 1.06285 × 10

214

b − 3.23420 × 10

217

5.28723 × 10

217

107

− 8.28194 × 10

217

106

+ ··· + 1.28605 × 10

216

a + 1.46385 × 10

220

108

− 2u

107

+ ··· + 665u − 121i

= hu

+ 2u

+ ··· + b + 5, −12u

− 5u

+ ··· + a − 15, u

+ u

+ ··· + 3u + 1i

* 2 irreducible components of dim

= 0, with total 129 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−1.20 × 10

215

107

+ 1.88 × 10

215

106

+ · · · + 1.06 × 10

214

b − 3.23 ×

217

, 5.29 × 10

217

107

− 8.28 × 10

217

106

+ · · · + 1.29 × 10

216

a + 1.46 ×

220

, u

108

− 2u

107

+ · · · + 665u − 121i

(i) Arc colorings















−u

+ u





−41.1122u

107

+ 64.3984u

106

+ ··· + 36653.3u − 11382.6

11.3129u

107

− 17.6833u

106

+ ··· − 9984.50u + 3042.95





0.827553u

107

− 2.28938u

106

+ ··· − 1509.86u + 617.568

−4.54597u

107

+ 6.83298u

106

+ ··· + 3815.14u − 1175.67





−29.7993u

107

+ 46.7151u

106

+ ··· + 26668.8u − 8339.62

11.3129u

107

− 17.6833u

106

+ ··· − 9984.50u + 3042.95





− u

+ u





−16.4923u

107

+ 26.9884u

106

+ ··· + 15115.1u − 4723.79

22.4428u

107

− 33.7114u

106

+ ··· − 18998.4u + 5793.78





49.2264u

107

− 75.9538u

106

+ ··· − 42626.0u + 13138.8

3.39652u

107

− 6.09058u

106

+ ··· − 3073.51u + 962.163





−42.3987u

107

+ 66.3530u

106

+ ··· + 37791.9u − 11742.9

5.22265u

107

− 8.18612u

106

+ ··· − 4597.36u + 1378.17





−20.8291u

107

+ 33.7038u

106

+ ··· + 19474.8u − 6266.69

12.6839u

107

− 20.1507u

106

+ ··· − 11239.0u + 3449.01



(ii) Obstruction class = −1

(iii) Cusp Shapes = −44.1834u

107

+ 68.3158u

106

+ ··· + 39249.5u − 11362.2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

108

+ 42u

107

+ ··· + 640907u + 14641

, c

108

− 2u

107

+ ··· + 665u − 121

108

− 16u

106

+ ··· − 2048u + 4096

, c

108

− 3u

107

+ ··· + 3492u − 216

, c

108

+ u

107

+ ··· − 2u + 1

, c

108

− 8u

107

+ ··· + 29u − 49

108

− 5u

107

+ ··· − 1003776u + 284645

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

108

+ 58y

107

+ ··· − 10226920779y + 214358881

, c

108

− 42y

107

+ ··· − 640907y + 14641

108

− 32y

107

+ ··· − 20971520y + 16777216

, c

108

+ 85y

107

+ ··· − 4952016y + 46656

, c

108

+ 67y

107

+ ··· + 34y + 1

, c

108

− 122y

107

+ ··· − 168029y + 2401

108

− 41y

107

+ ··· − 1084936184916y + 81022776025

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.473060 + 0.875553I

a = 0.707490 + 0.870890I

b = −0.693599 − 1.206920I

2.70722 + 7.95600I 0

u = 0.473060 − 0.875553I

a = 0.707490 − 0.870890I

b = −0.693599 + 1.206920I

2.70722 − 7.95600I 0

u = −0.549471 + 0.842594I

a = 1.008210 − 0.819907I

b = −0.396404 + 1.083280I

5.18492 − 5.01087I 0

u = −0.549471 − 0.842594I

a = 1.008210 + 0.819907I

b = −0.396404 − 1.083280I

5.18492 + 5.01087I 0

u = −0.838043 + 0.573550I

a = −2.21721 + 1.72162I

b = 0.349372 + 1.102210I

8.48917 + 5.97444I 0

u = −0.838043 − 0.573550I

a = −2.21721 − 1.72162I

b = 0.349372 − 1.102210I

8.48917 − 5.97444I 0

u = 0.919844 + 0.431107I

a = −2.06859 − 0.63924I

b = 0.083628 − 0.715885I

0.333552 + 0.320050I 0

u = 0.919844 − 0.431107I

a = −2.06859 + 0.63924I

b = 0.083628 + 0.715885I

0.333552 − 0.320050I 0

u = 0.853517 + 0.591429I

a = −2.11840 − 0.23828I

b = 0.56054 − 1.87766I

6.82179 − 1.22996I 0

u = 0.853517 − 0.591429I

a = −2.11840 + 0.23828I

b = 0.56054 + 1.87766I

6.82179 + 1.22996I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.852765 + 0.594286I

a = −0.382859 + 1.083340I

b = −0.83303 − 1.78714I

6.82273 − 3.46268I 0

u = 0.852765 − 0.594286I

a = −0.382859 − 1.083340I

b = −0.83303 + 1.78714I

6.82273 + 3.46268I 0

u = −0.708277 + 0.646884I

a = 1.64335 − 0.76091I

b = −1.34848 − 0.50829I

5.12587 − 1.17539I 0

u = −0.708277 − 0.646884I

a = 1.64335 + 0.76091I

b = −1.34848 + 0.50829I

5.12587 + 1.17539I 0

u = 0.927702 + 0.218176I

a = 0.681705 − 0.897707I

b = −0.690327 + 0.454815I

6.57674 − 5.64279I 0

u = 0.927702 − 0.218176I

a = 0.681705 + 0.897707I

b = −0.690327 − 0.454815I

6.57674 + 5.64279I 0

u = 0.926121 + 0.504353I

a = 1.104810 + 0.665303I

b = −0.523582 − 0.110172I

0.09015 − 3.83905I 0

u = 0.926121 − 0.504353I

a = 1.104810 − 0.665303I

b = −0.523582 + 0.110172I

0.09015 + 3.83905I 0

u = −0.878524 + 0.584465I

a = 1.205720 − 0.130671I

b = −0.541178 + 1.046540I

8.35182 − 1.37489I 0

u = −0.878524 − 0.584465I

a = 1.205720 + 0.130671I

b = −0.541178 − 1.046540I

8.35182 + 1.37489I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.885925 + 0.270042I

a = 0.674994 + 0.890462I

b = 0.09003 + 1.54119I

−4.90763 − 1.11610I 0

u = 0.885925 − 0.270042I

a = 0.674994 − 0.890462I

b = 0.09003 − 1.54119I

−4.90763 + 1.11610I 0

u = −0.670529 + 0.843882I

a = −1.41684 + 0.60093I

b = 1.144080 + 0.271829I

13.4229 − 5.1024I 0

u = −0.670529 − 0.843882I

a = −1.41684 − 0.60093I

b = 1.144080 − 0.271829I

13.4229 + 5.1024I 0

u = −0.586082 + 0.699959I

a = 1.351240 + 0.417284I

b = −0.277289 − 1.121530I

5.00143 + 1.83882I 0

u = −0.586082 − 0.699959I

a = 1.351240 − 0.417284I

b = −0.277289 + 1.121530I

5.00143 − 1.83882I 0

u = 1.091640 + 0.073011I

a = 0.103738 − 0.992056I

b = −0.139220 − 1.307480I

−6.53240 + 1.23702I 0

u = 1.091640 − 0.073011I

a = 0.103738 + 0.992056I

b = −0.139220 + 1.307480I

−6.53240 − 1.23702I 0

u = 0.451011 + 0.784212I

a = 1.273660 − 0.133702I

b = −0.568027 − 0.047119I

8.07381 + 1.59724I 0

u = 0.451011 − 0.784212I

a = 1.273660 + 0.133702I

b = −0.568027 + 0.047119I

8.07381 − 1.59724I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.083430 + 0.170919I

a = −0.698255 + 0.527280I

b = −0.378511 + 1.246240I

−2.92616 − 1.09003I 0

u = −1.083430 − 0.170919I

a = −0.698255 − 0.527280I

b = −0.378511 − 1.246240I

−2.92616 + 1.09003I 0

u = −1.09795

a = −0.368465

b = 0.666440

2.62003 0

u = −0.523837 + 0.733708I

a = −0.696556 + 0.981163I

b = 0.346320 − 1.044430I

−1.38558 − 2.70089I 0

u = −0.523837 − 0.733708I

a = −0.696556 − 0.981163I

b = 0.346320 + 1.044430I

−1.38558 + 2.70089I 0

u = −0.984732 + 0.540814I

a = 1.48087 − 1.27252I

b = −0.359632 − 1.138000I

1.10854 + 5.71480I 0

u = −0.984732 − 0.540814I

a = 1.48087 + 1.27252I

b = −0.359632 + 1.138000I

1.10854 − 5.71480I 0

u = −0.703662 + 0.518712I

a = −1.031900 − 0.031481I

b = 0.543441 − 1.001150I

2.03756 − 1.38231I 0

u = −0.703662 − 0.518712I

a = −1.031900 + 0.031481I

b = 0.543441 + 1.001150I

2.03756 + 1.38231I 0

u = 0.757168 + 0.434719I

a = 3.39105 + 0.12282I

b = −0.010875 + 0.740927I

7.60270 + 2.67213I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.757168 − 0.434719I

a = 3.39105 − 0.12282I

b = −0.010875 − 0.740927I

7.60270 − 2.67213I 0

u = −0.936532 + 0.633259I

a = −1.00052 + 1.11876I

b = 1.55972 − 0.17892I

4.45386 + 6.18095I 0

u = −0.936532 − 0.633259I

a = −1.00052 − 1.11876I

b = 1.55972 + 0.17892I

4.45386 − 6.18095I 0

u = −0.976297 + 0.585566I

a = −1.78809 + 0.08042I

b = 0.454982 + 1.235360I

−2.63040 + 3.86869I 0

u = −0.976297 − 0.585566I

a = −1.78809 − 0.08042I

b = 0.454982 − 1.235360I

−2.63040 − 3.86869I 0

u = −0.227089 + 0.828776I

a = 0.283807 + 0.030814I

b = −0.465423 + 0.863386I

3.05305 − 0.31048I 0

u = −0.227089 − 0.828776I

a = 0.283807 − 0.030814I

b = −0.465423 − 0.863386I

3.05305 + 0.31048I 0

u = 0.541017 + 1.005910I

a = −0.650168 − 0.745155I

b = 0.646450 + 1.252080I

10.3554 + 11.3655I 0

u = 0.541017 − 1.005910I

a = −0.650168 + 0.745155I

b = 0.646450 − 1.252080I

10.3554 − 11.3655I 0

u = 0.875093 + 0.734313I

a = −0.663314 + 0.334049I

b = 0.400839 − 0.319523I

3.72639 − 2.82265I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.875093 − 0.734313I

a = −0.663314 − 0.334049I

b = 0.400839 + 0.319523I

3.72639 + 2.82265I 0

u = −0.959651 + 0.645938I

a = −0.005851 + 0.347104I

b = 0.523713 − 0.959481I

4.00904 + 3.32493I 0

u = −0.959651 − 0.645938I

a = −0.005851 − 0.347104I

b = 0.523713 + 0.959481I

4.00904 − 3.32493I 0

u = 0.876860 + 0.761678I

a = −0.179546 + 0.607540I

b = −0.054879 − 0.291273I

3.75178 − 2.88559I 0

u = 0.876860 − 0.761678I

a = −0.179546 − 0.607540I

b = −0.054879 + 0.291273I

3.75178 + 2.88559I 0

u = 1.028930 + 0.587128I

a = 1.90164 + 0.62956I

b = −0.87739 + 1.40295I

−0.30441 − 7.63518I 0

u = 1.028930 − 0.587128I

a = 1.90164 − 0.62956I

b = −0.87739 − 1.40295I

−0.30441 + 7.63518I 0

u = 0.861830 + 0.816429I

a = 0.071175 − 1.214830I

b = 0.182839 + 0.432133I

10.65380 − 3.10774I 0

u = 0.861830 − 0.816429I

a = 0.071175 + 1.214830I

b = 0.182839 − 0.432133I

10.65380 + 3.10774I 0

u = −0.760443 + 0.271321I

a = −0.002660 − 0.265274I

b = −0.338167 + 0.464740I

−1.25535 + 0.69450I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.760443 − 0.271321I

a = −0.002660 + 0.265274I

b = −0.338167 − 0.464740I

−1.25535 − 0.69450I 0

u = 1.040690 + 0.589174I

a = −0.923884 − 0.806157I

b = 0.499188 + 0.215260I

6.23284 − 6.65466I 0

u = 1.040690 − 0.589174I

a = −0.923884 + 0.806157I

b = 0.499188 − 0.215260I

6.23284 + 6.65466I 0

u = 1.201340 + 0.015247I

a = −0.503046 − 0.959905I

b = 0.256160 − 1.198350I

−1.06906 − 3.31616I 0

u = 1.201340 − 0.015247I

a = −0.503046 + 0.959905I

b = 0.256160 + 1.198350I

−1.06906 + 3.31616I 0

u = −0.208754 + 1.187980I

a = −0.259697 + 0.052384I

b = 0.394602 − 0.862464I

9.93351 + 0.77910I 0

u = −0.208754 − 1.187980I

a = −0.259697 − 0.052384I

b = 0.394602 + 0.862464I

9.93351 − 0.77910I 0

u = 0.747978 + 0.953978I

a = 0.461708 − 0.162440I

b = −0.306209 + 0.634133I

3.85688 − 3.32718I 0

u = 0.747978 − 0.953978I

a = 0.461708 + 0.162440I

b = −0.306209 − 0.634133I

3.85688 + 3.32718I 0

u = 1.102530 + 0.504475I

a = 1.226100 + 0.569982I

b = −0.125324 + 0.660192I

−0.43748 − 3.66386I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.102530 − 0.504475I

a = 1.226100 − 0.569982I

b = −0.125324 − 0.660192I

−0.43748 + 3.66386I 0

u = −0.541468 + 0.567666I

a = −0.028249 − 1.023690I

b = −0.234324 + 0.946299I

−1.48923 + 0.77150I 0

u = −0.541468 − 0.567666I

a = −0.028249 + 1.023690I

b = −0.234324 − 0.946299I

−1.48923 − 0.77150I 0

u = −1.051390 + 0.633166I

a = 1.88360 − 0.20286I

b = −0.462804 − 1.171660I

−2.92953 + 7.93071I 0

u = −1.051390 − 0.633166I

a = 1.88360 + 0.20286I

b = −0.462804 + 1.171660I

−2.92953 − 7.93071I 0

u = 0.959577 + 0.788105I

a = 0.838671 − 0.381486I

b = −0.528764 + 0.258032I

10.36730 − 2.98702I 0

u = 0.959577 − 0.788105I

a = 0.838671 + 0.381486I

b = −0.528764 − 0.258032I

10.36730 + 2.98702I 0

u = −1.022620 + 0.716898I

a = 0.975752 − 0.785034I

b = −1.286650 + 0.123126I

12.3366 + 10.9198I 0

u = −1.022620 − 0.716898I

a = 0.975752 + 0.785034I

b = −1.286650 − 0.123126I

12.3366 − 10.9198I 0

u = −0.727701 + 0.161722I

a = 1.77728 − 0.36588I

b = −0.753976 − 1.046270I

4.92697 − 0.20226I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.727701 − 0.161722I

a = 1.77728 + 0.36588I

b = −0.753976 + 1.046270I

4.92697 + 0.20226I 0

u = 0.622029 + 0.398139I

a = −1.52293 − 0.22173I

b = 0.472209 + 0.032024I

1.073050 − 0.034370I 0

u = 0.622029 − 0.398139I

a = −1.52293 + 0.22173I

b = 0.472209 − 0.032024I

1.073050 + 0.034370I 0

u = −1.262390 + 0.001421I

a = 0.132361 + 0.701874I

b = 0.363612 + 1.190420I

−3.61718 + 5.59007I 0

u = −1.262390 − 0.001421I

a = 0.132361 − 0.701874I

b = 0.363612 − 1.190420I

−3.61718 − 5.59007I 0

u = 0.486653 + 0.553887I

a = −0.76014 − 1.31274I

b = 0.878383 + 1.068390I

1.19643 + 2.94178I 0

u = 0.486653 − 0.553887I

a = −0.76014 + 1.31274I

b = 0.878383 − 1.068390I

1.19643 − 2.94178I 0

u = −0.657418 + 0.310518I

a = 2.51515 + 0.43393I

b = 0.094082 − 1.281950I

5.31723 + 1.96329I 0

u = −0.657418 − 0.310518I

a = 2.51515 − 0.43393I

b = 0.094082 + 1.281950I

5.31723 − 1.96329I 0

u = −1.080210 + 0.682836I

a = −2.01230 + 0.23776I

b = 0.464349 + 1.137860I

3.58932 + 10.70600I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.080210 − 0.682836I

a = −2.01230 − 0.23776I

b = 0.464349 − 1.137860I

3.58932 − 10.70600I 0

u = 1.109350 + 0.662620I

a = −1.73834 − 0.48707I

b = 0.71822 − 1.35841I

0.79512 − 13.63080I 0

u = 1.109350 − 0.662620I

a = −1.73834 + 0.48707I

b = 0.71822 + 1.35841I

0.79512 + 13.63080I 0

u = 1.141290 + 0.730712I

a = 1.69619 + 0.39257I

b = −0.66089 + 1.36226I

8.4801 − 17.6568I 0

u = 1.141290 − 0.730712I

a = 1.69619 − 0.39257I

b = −0.66089 − 1.36226I

8.4801 + 17.6568I 0

u = −1.193680 + 0.662241I

a = −1.038890 + 0.558810I

b = 0.366469 + 1.171730I

0.27951 + 5.89405I 0

u = −1.193680 − 0.662241I

a = −1.038890 − 0.558810I

b = 0.366469 − 1.171730I

0.27951 − 5.89405I 0

u = 1.261090 + 0.636921I

a = −0.803064 − 0.444751I

b = 0.126758 − 0.654920I

5.57865 − 6.57980I 0

u = 1.261090 − 0.636921I

a = −0.803064 + 0.444751I

b = 0.126758 + 0.654920I

5.57865 + 6.57980I 0

u = −1.43120 + 0.14591I

a = 0.191855 − 0.602946I

b = −0.358116 − 1.174330I

2.45534 + 8.59444I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.43120 − 0.14591I

a = 0.191855 + 0.602946I

b = −0.358116 + 1.174330I

2.45534 − 8.59444I 0

u = 0.76870 + 1.21907I

a = −0.400142 + 0.042707I

b = 0.274008 − 0.711337I

10.54990 − 3.98993I 0

u = 0.76870 − 1.21907I

a = −0.400142 − 0.042707I

b = 0.274008 + 0.711337I

10.54990 + 3.98993I 0

u = −1.30134 + 0.78639I

a = 0.908626 − 0.350281I

b = −0.363659 − 1.180110I

6.72804 + 6.21729I 0

u = −1.30134 − 0.78639I

a = 0.908626 + 0.350281I

b = −0.363659 + 1.180110I

6.72804 − 6.21729I 0

u = 0.440218 + 0.007816I

a = −0.24041 − 1.63056I

b = 0.758652 + 0.713064I

1.19054 + 2.71950I 0.99256 − 6.37992I

u = 0.440218 − 0.007816I

a = −0.24041 + 1.63056I

b = 0.758652 − 0.713064I

1.19054 − 2.71950I 0.99256 + 6.37992I

u = 0.419660

a = −1.87954

b = 0.381743

0.914841 13.1320

II.

= hu

+2u

+· · ·+b+5, −12u

−5u

+· · ·+a−15, u

+· · ·+3u+1i

(i) Arc colorings















−u

+ u





12u

+ 5u

+ ··· + 36u + 15

−u

− 2u

+ ··· − 4u − 5





12u

+ 3u

+ ··· + 35u + 5

−2u

− u

+ ··· − 9u − 6





11u

+ 3u

+ ··· + 32u + 10

−u

− 2u

+ ··· − 4u − 5





− u

+ u





+ 5u

+ ··· + 16u + 12

−u

+ 4u

+ ··· − u − 1





−10u

− 3u

+ ··· − 33u − 12

−u

+ 4u

+ ··· − 2u + 1





12u

+ 5u

+ ··· + 37u + 16

− u

+ ··· + 3u − 1





−13u

− 6u

+ ··· − 40u − 14

−u

+ 3u

− u

− 6u

+ 3u

+ 6u

− 4u

− 5u

+ 2u + 2



(ii) Obstruction class = 1

(iii) Cusp Shapes

= −14u

−u

+ 63u

−25u

−196u

+ 132u

+ 375u

−360u

−534u

+ 648u

529u

− 804u

− 401u

+ 739u

+ 210u

− 461u

− 92u

+ 189u

+ 29u

− 41u − 6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· + 11u − 1

− u

+ ··· + 3u − 1

+ u

+ ··· + 5u − 1

− 2u

+ ··· − 2u − 3

+ 10u

+ ··· + 6u + 1

+ u

+ ··· + 3u + 1

+ 2u

+ ··· − 2u + 3

, c

+ u

+ ··· + 5u + 1

+ 10u

+ ··· + 6u − 1

− 2u

+ ··· + 6u + 1

− u

+ ··· + 5u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 15y

+ ··· − 17y −1

, c

− 9y

+ ··· + 11y −1

− 7y

+ ··· + 19y −1

, c

+ 22y

+ ··· − 104y −9

, c

+ 20y

+ ··· + 10y −1

, c

− 29y

+ ··· + 9y −1

− 4y

+ ··· + 32y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.820423 + 0.631013I

a = 1.050250 + 0.253276I

b = 0.21601 − 1.68021I

6.89986 + 2.50759I 9.76319 − 2.39511I

u = −0.820423 − 0.631013I

a = 1.050250 − 0.253276I

b = 0.21601 + 1.68021I

6.89986 − 2.50759I 9.76319 + 2.39511I

u = 0.903321 + 0.133481I

a = 0.775922 + 0.968361I

b = 0.01390 + 1.46618I

−5.15941 − 0.56745I −1.92028 − 2.84114I

u = 0.903321 − 0.133481I

a = 0.775922 − 0.968361I

b = 0.01390 − 1.46618I

−5.15941 + 0.56745I −1.92028 + 2.84114I

u = 0.716086 + 0.505123I

a = −2.35062 + 0.26772I

b = 0.74430 − 1.29894I

6.07693 − 0.03732I 9.37966 − 0.12123I

u = 0.716086 − 0.505123I

a = −2.35062 − 0.26772I

b = 0.74430 + 1.29894I

6.07693 + 0.03732I 9.37966 + 0.12123I

u = 0.819984 + 0.838814I

a = 0.253614 − 0.504529I

b = −0.140516 + 0.590111I

3.42574 − 3.14778I −5.74962 + 6.21620I

u = 0.819984 − 0.838814I

a = 0.253614 + 0.504529I

b = −0.140516 − 0.590111I

3.42574 + 3.14778I −5.74962 − 6.21620I

u = 1.009200 + 0.606978I

a = −0.058815 + 0.756627I

b = −0.711331 − 0.858548I

5.00283 − 4.45517I 7.26864 + 4.48388I

u = 1.009200 − 0.606978I

a = −0.058815 − 0.756627I

b = −0.711331 + 0.858548I

5.00283 + 4.45517I 7.26864 − 4.48388I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.800131

a = 1.38397

b = −0.198977

0.422571 −5.22070

u = −1.110220 + 0.558025I

a = −1.25135 + 0.83423I

b = 0.455417 + 1.127270I

−0.46752 + 5.65574I −1.10475 − 5.29317I

u = −1.110220 − 0.558025I

a = −1.25135 − 0.83423I

b = 0.455417 − 1.127270I

−0.46752 − 5.65574I −1.10475 + 5.29317I

u = −0.646187 + 0.388815I

a = 1.47122 − 0.35668I

b = −0.628007 + 0.810454I

1.34744 − 1.67206I 1.52827 + 2.27823I

u = −0.646187 − 0.388815I

a = 1.47122 + 0.35668I

b = −0.628007 − 0.810454I

1.34744 + 1.67206I 1.52827 − 2.27823I

u = 0.790181 + 0.999133I

a = −0.052855 + 0.670525I

b = 0.090745 − 0.772295I

9.80396 − 3.59314I 3.21150 + 2.92520I

u = 0.790181 − 0.999133I

a = −0.052855 − 0.670525I

b = 0.090745 + 0.772295I

9.80396 + 3.59314I 3.21150 − 2.92520I

u = −1.272280 + 0.582453I

a = 0.919745 − 0.861219I

b = −0.279270 − 1.015850I

4.60320 + 7.62970I 3.69155 − 7.59260I

u = −1.272280 − 0.582453I

a = 0.919745 + 0.861219I

b = −0.279270 + 1.015850I

4.60320 − 7.62970I 3.69155 + 7.59260I

u = −0.489595 + 0.320187I

a = −3.44909 − 0.90345I

b = 0.338245 − 0.804670I

7.73410 − 3.58608I 7.04221 + 5.92560I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.489595 − 0.320187I

a = −3.44909 + 0.90345I

b = 0.338245 + 0.804670I

7.73410 + 3.58608I 7.04221 − 5.92560I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 9u

+ ··· + 11u − 1)(u

108

+ 42u

107

+ ··· + 640907u + 14641)

− u

+ ··· + 3u − 1)(u

108

− 2u

107

+ ··· + 665u − 121)

+ u

+ ··· + 5u − 1)(u

108

− 16u

106

+ ··· − 2048u + 4096)

− 2u

+ ··· − 2u − 3)(u

108

− 3u

107

+ ··· + 3492u − 216)

+ 10u

+ ··· + 6u + 1)(u

108

+ u

107

+ ··· − 2u + 1)

+ u

+ ··· + 3u + 1)(u

108

− 2u

107

+ ··· + 665u − 121)

+ 2u

+ ··· − 2u + 3)(u

108

− 3u

107

+ ··· + 3492u − 216)

, c

+ u

+ ··· + 5u + 1)(u

108

− 8u

107

+ ··· + 29u − 49)

+ 10u

+ ··· + 6u − 1)(u

108

+ u

107

+ ··· − 2u + 1)

− 2u

+ ··· + 6u + 1)(u

108

− 5u

107

+ ··· − 1003776u + 284645)

− u

+ ··· + 5u − 1)(u

108

− 8u

107

+ ··· + 29u − 49)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 15y

+ ··· − 17y −1)

· (y

108

+ 58y

107

+ ··· − 10226920779y + 214358881)

, c

− 9y

+ ··· + 11y −1)(y

108

− 42y

107

+ ··· − 640907y + 14641)

− 7y

+ ··· + 19y −1)

· (y

108

− 32y

107

+ ··· − 20971520y + 16777216)

, c

+ 22y

+ ··· − 104y −9)

· (y

108

+ 85y

107

+ ··· − 4952016y + 46656)

, c

+ 20y

+ ··· + 10y −1)(y

108

+ 67y

107

+ ··· + 34y + 1)

, c

− 29y

+ ··· + 9y −1)(y

108

− 122y

107

+ ··· − 168029y + 2401)

− 4y

+ ··· + 32y −1)

· (y

108

− 41y

107

+ ··· − 1084936184916y + 81022776025)