12a

0157

(K12a

0157

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

3,9 4,5,11

6 2 1 8 10 7 12

, c

Ideals for irreducible components

of X

par

= h−6.07617 × 10

162

− 1.59683 × 10

163

+ ··· + 1.45795 × 10

166

d + 6.24229 × 10

165

− 7.60333 × 10

161

+ 1.20057 × 10

161

+ ··· + 3.64487 × 10

165

c + 3.09611 × 10

165

− 3.42640 × 10

161

+ 2.87429 × 10

161

+ ··· + 2.56564 × 10

164

b + 1.17150 × 10

165

6.98505 × 10

162

+ 6.83866 × 10

162

+ ··· + 1.02626 × 10

165

a − 1.03017 × 10

166

+ 2u

+ ··· + 2560u

+ 512i

= hu

− a

− u

a + a

u + 2u

+ au + d − 4a + 4, u

− 2u

a + a

u + 2u

+ au + c − 2a + 2,

+ b + 2a − 2, 2u

− 2a

− 3u

a + a

+ 2a

u + 3u

a + u

− 3au − u

+ u, u

+ u

+ u + 1i

= hu

− 4u

a + 2u

+ 4u

a + 4u

− 5u

a − 4u

+ 2a

u + 8u

a + 6u

− 3au − 8u

+ d + 8a + 4u − 8,

− 2u

a + u

+ 2u

a + 2u

− 4u

a − 2u

+ a

u + 4u

a + 4u

− au − 4u

+ c + 4a + 2u − 4,

+ b + 2a − 2, −4u

+ 6u

a + ··· − 6a + 2, u

− u

+ 2u

− 2u

+ 2u

− 2u + 1i

= hc, d − v − 1, b, a − 1, v

+ v + 1i

= ha, d, c − v, b − 1, v

− v + 1i

= ha, d + 1, c + a, b − 1, v − 1i

= ha, a

d − c

v − 2ca + cv + a − v, dv + 1, c

+ 2cav − v

c + a

− av + v

, b − 1i

* 6 irreducible components of dim

= 0, with total 112 representations.

* 1 irreducible components of dim

= 1

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).

I. I

h−6.08×10

162

−1.60×10

163

+· · ·+1.46×10

166

d+6.24×10

165

, −7.60×

161

+1.20×10

161

+· · ·+3.64×10

165

c+3.10×10

165

, −3.43×10

161

2.87 × 10

161

+ · · · + 2.57 × 10

164

b + 1.17 × 10

165

, 6.99 × 10

162

+ 6.84 ×

162

+ · · · + 1.03 × 10

165

a − 1.03 × 10

166

, u

+ 2u

+ · · · + 2560u

+ 512i

(i) Arc colorings















−0.00680634u

− 0.00666370u

+ ··· − 13.3533u + 10.0381

0.00133550u

− 0.00112030u

+ ··· + 4.56543u − 4.56612





0.000208604u

− 0.0000329385u

+ ··· − 1.00214u − 0.849444

0.000416762u

+ 0.00109526u

+ ··· + 0.259754u − 0.428156





−0.00584350u

− 0.00606296u

+ ··· − 10.5775u + 9.19500

−0.000891648u

− 0.00576153u

+ ··· + 4.16493u − 3.32748





−0.00680634u

− 0.00666370u

+ ··· − 13.3533u + 10.0381

0.000152722u

+ 0.00152555u

+ ··· − 1.08059u + 1.00825





−0.00665361u

− 0.00513815u

+ ··· − 14.4339u + 11.0464

0.000152722u

+ 0.00152555u

+ ··· − 1.08059u + 1.00825





+ u





−0.0000869789u

− 0.000560439u

+ ··· − 0.853173u − 0.579783

0.000218526u

+ 0.000662503u

+ ··· + 0.560059u − 0.191092





0.000290951u

+ 0.00110858u

+ ··· + 1.36870u + 0.190813

0.000499554u

+ 0.00107564u

+ ··· + 0.366559u − 0.658630





0.00628963u

+ 0.0183729u

+ ··· + 6.15552u + 8.93643

−0.00429774u

− 0.00774981u

+ ··· − 6.38490u − 0.700057



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.0221138u

− 0.0478032u

+ ··· − 21.6023u + 0.388088

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

in decimal forms when there is not enough margin.

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 34u

+ ··· + 1568u + 256

, c

− 8u

+ ··· − 72u + 16

, c

+ 2u

+ ··· + 2560u

+ 512

+ 2u

+ ··· + 351912u + 66564

, c

− 2u

+ ··· − 27u

+ 4

, c

+ 8u

+ ··· − 72u + 16

− 36u

+ ··· + 216u + 16

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 26y

+ ··· + 3416576y − 65536

, c

− 34y

+ ··· + 1568y − 256

, c

+ 30y

+ ··· − 2621440y − 262144

− 12y

+ ··· + 120020616504y − 4430766096

, c

+ 36y

+ ··· + 216y − 16

, c

− 74y

+ ··· + 7712y − 256

+ 12y

+ ··· + 84256y − 256

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.508886 + 0.845592I

a = 0.440978 − 0.047456I

b = 1.241720 + 0.241243I

c = 1.093870 + 0.364160I

d = 0.443416 − 0.224335I

−2.40889 + 4.27390I −3.74115 − 6.44221I

u = −0.508886 − 0.845592I

a = 0.440978 + 0.047456I

b = 1.241720 − 0.241243I

c = 1.093870 − 0.364160I

d = 0.443416 + 0.224335I

−2.40889 − 4.27390I −3.74115 + 6.44221I

u = 0.848496 + 0.585068I

a = 0.460618 + 0.092632I

b = 1.086610 − 0.419625I

c = −0.531801 + 1.113610I

d = −1.32944 + 1.48023I

−3.78378 + 2.11500I −7.65464 − 1.99007I

u = 0.848496 − 0.585068I

a = 0.460618 − 0.092632I

b = 1.086610 + 0.419625I

c = −0.531801 − 1.113610I

d = −1.32944 − 1.48023I

−3.78378 − 2.11500I −7.65464 + 1.99007I

u = 0.990280 + 0.319237I

a = 0.580990 − 0.275212I

b = 0.405766 + 0.665904I

c = 0.427768 − 0.711040I

d = 0.003575 − 0.815149I

2.98745 + 0.86657I 0

u = 0.990280 − 0.319237I

a = 0.580990 + 0.275212I

b = 0.405766 − 0.665904I

c = 0.427768 + 0.711040I

d = 0.003575 + 0.815149I

2.98745 − 0.86657I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.617221 + 0.733532I

a = 0.450662 + 0.060640I

b = 1.179500 − 0.293267I

c = −0.865693 + 0.615479I

d = −0.818586 + 0.224399I

−4.09446 + 0.35704I −8.04104 + 0.70386I

u = 0.617221 − 0.733532I

a = 0.450662 − 0.060640I

b = 1.179500 + 0.293267I

c = −0.865693 − 0.615479I

d = −0.818586 − 0.224399I

−4.09446 − 0.35704I −8.04104 − 0.70386I

u = −0.517431 + 0.792256I

a = −0.31513 − 2.57319I

b = −1.046890 + 0.382880I

c = 0.979361 + 0.392885I

d = 0.491329 − 0.041258I

−2.57405 − 0.08416I −4.54592 − 2.74373I

u = −0.517431 − 0.792256I

a = −0.31513 + 2.57319I

b = −1.046890 − 0.382880I

c = 0.979361 − 0.392885I

d = 0.491329 + 0.041258I

−2.57405 + 0.08416I −4.54592 + 2.74373I

u = 0.082487 + 0.936352I

a = 0.92003 − 1.14713I

b = −0.574527 + 0.530498I

c = 1.17847 − 0.94179I

d = −0.290045 + 0.776854I

1.72016 + 1.41215I 1.65188 − 3.77223I

u = 0.082487 − 0.936352I

a = 0.92003 + 1.14713I

b = −0.574527 − 0.530498I

c = 1.17847 + 0.94179I

d = −0.290045 − 0.776854I

1.72016 − 1.41215I 1.65188 + 3.77223I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.582500 + 0.889546I

a = −0.41276 + 2.17080I

b = −1.084530 − 0.444586I

c = −1.204890 + 0.519522I

d = −0.720160 − 0.450817I

−3.62010 − 5.07823I −6.10660 + 7.37918I

u = 0.582500 − 0.889546I

a = −0.41276 − 2.17080I

b = −1.084530 + 0.444586I

c = −1.204890 − 0.519522I

d = −0.720160 + 0.450817I

−3.62010 + 5.07823I −6.10660 − 7.37918I

u = −0.228301 + 1.040040I

a = 0.723676 + 0.951160I

b = −0.493370 − 0.665886I

c = −0.513216 − 0.329220I

d = −0.312338 − 0.999680I

3.92825 − 1.69884I 4.65730 + 2.32962I

u = −0.228301 − 1.040040I

a = 0.723676 − 0.951160I

b = −0.493370 + 0.665886I

c = −0.513216 + 0.329220I

d = −0.312338 + 0.999680I

3.92825 + 1.69884I 4.65730 − 2.32962I

u = −0.782003 + 0.468875I

a = 0.479369 − 0.088840I

b = 1.016810 + 0.373767I

c = −0.789013 − 1.040910I

d = −0.598791 − 0.392671I

−0.65497 − 3.51390I −3.54011 + 4.44478I

u = −0.782003 − 0.468875I

a = 0.479369 + 0.088840I

b = 1.016810 − 0.373767I

c = −0.789013 + 1.040910I

d = −0.598791 + 0.392671I

−0.65497 + 3.51390I −3.54011 − 4.44478I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.374962 + 1.039940I

a = 0.679703 − 0.804881I

b = −0.387561 + 0.725229I

c = 0.822403 − 0.322418I

d = 0.559284 − 0.573519I

3.38837 − 3.78470I 0

u = 0.374962 − 1.039940I

a = 0.679703 + 0.804881I

b = −0.387561 − 0.725229I

c = 0.822403 + 0.322418I

d = 0.559284 + 0.573519I

3.38837 + 3.78470I 0

u = −0.965284 + 0.548957I

a = 0.458449 − 0.109175I

b = 1.064210 + 0.491568I

c = 0.42927 + 1.36968I

d = 1.62931 + 2.26420I

−1.81197 − 6.85619I 0

u = −0.965284 − 0.548957I

a = 0.458449 + 0.109175I

b = 1.064210 − 0.491568I

c = 0.42927 − 1.36968I

d = 1.62931 − 2.26420I

−1.81197 + 6.85619I 0

u = −0.288832 + 1.092220I

a = 0.655250 + 0.897222I

b = −0.469158 − 0.726873I

c = −1.39360 − 1.30383I

d = 0.03743 + 1.65696I

4.40655 + 2.61636I 0

u = −0.288832 − 1.092220I

a = 0.655250 − 0.897222I

b = −0.469158 + 0.726873I

c = −1.39360 + 1.30383I

d = 0.03743 − 1.65696I

4.40655 − 2.61636I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.815552 + 0.276755I

a = 0.510621 − 0.104384I

b = 0.879842 + 0.384286I

c = −0.134802 + 0.964627I

d = −0.35977 + 2.02275I

0.065597 − 0.205341I −1.21551 + 1.86968I

u = −0.815552 − 0.276755I

a = 0.510621 + 0.104384I

b = 0.879842 − 0.384286I

c = −0.134802 − 0.964627I

d = −0.35977 − 2.02275I

0.065597 + 0.205341I −1.21551 − 1.86968I

u = 0.008067 + 1.164640I

a = 0.524425 + 1.231070I

b = −0.707115 − 0.687536I

c = −1.63638 − 0.81487I

d = 1.18786 + 0.86080I

4.97078 − 4.99360I 0

u = 0.008067 − 1.164640I

a = 0.524425 − 1.231070I

b = −0.707115 + 0.687536I

c = −1.63638 + 0.81487I

d = 1.18786 − 0.86080I

4.97078 + 4.99360I 0

u = −1.177360 + 0.140655I

a = 0.514925 + 0.236545I

b = 0.603622 − 0.736667I

c = −0.027412 − 0.316988I

d = 1.016250 − 0.656214I

6.72367 + 2.38646I 0

u = −1.177360 − 0.140655I

a = 0.514925 − 0.236545I

b = 0.603622 + 0.736667I

c = −0.027412 + 0.316988I

d = 1.016250 + 0.656214I

6.72367 − 2.38646I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.516220 + 1.088150I

a = −0.14742 + 1.74242I

b = −1.048210 − 0.569836I

c = 1.105030 − 0.234332I

d = 0.652838 + 0.110822I

2.28765 − 3.11487I 0

u = 0.516220 − 1.088150I

a = −0.14742 − 1.74242I

b = −1.048210 + 0.569836I

c = 1.105030 + 0.234332I

d = 0.652838 − 0.110822I

2.28765 + 3.11487I 0

u = −1.143240 + 0.423905I

a = 0.533939 + 0.311288I

b = 0.397778 − 0.814910I

c = −0.113421 − 0.926777I

d = −0.01193 − 1.62150I

5.54743 − 5.38085I 0

u = −1.143240 − 0.423905I

a = 0.533939 − 0.311288I

b = 0.397778 + 0.814910I

c = −0.113421 + 0.926777I

d = −0.01193 + 1.62150I

5.54743 + 5.38085I 0

u = −1.079500 + 0.575143I

a = 0.447329 − 0.120477I

b = 1.084300 + 0.561354I

c = −0.260355 − 1.216300I

d = −0.90050 − 1.58646I

1.00971 − 5.65602I 0

u = −1.079500 − 0.575143I

a = 0.447329 + 0.120477I

b = 1.084300 − 0.561354I

c = −0.260355 + 1.216300I

d = −0.90050 + 1.58646I

1.00971 + 5.65602I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.163010 + 0.411297I

a = 0.457972 + 0.144139I

b = 0.986739 − 0.625293I

c = 0.071233 − 0.902749I

d = −0.10463 − 1.67523I

5.58247 + 2.79509I 0

u = 1.163010 − 0.411297I

a = 0.457972 − 0.144139I

b = 0.986739 + 0.625293I

c = 0.071233 + 0.902749I

d = −0.10463 + 1.67523I

5.58247 − 2.79509I 0

u = −0.530613 + 1.137340I

a = −0.16592 − 1.65105I

b = −1.060260 + 0.599620I

c = 1.76242 + 0.34399I

d = −0.11353 − 1.60654I

2.68982 + 5.10175I 0

u = −0.530613 − 1.137340I

a = −0.16592 + 1.65105I

b = −1.060260 − 0.599620I

c = 1.76242 − 0.34399I

d = −0.11353 + 1.60654I

2.68982 − 5.10175I 0

u = −0.601554 + 1.104580I

a = −0.29797 − 1.68572I

b = −1.101680 + 0.575244I

c = −1.271520 − 0.218579I

d = −0.788648 + 0.590297I

1.29562 + 8.75795I 0

u = −0.601554 − 1.104580I

a = −0.29797 + 1.68572I

b = −1.101680 − 0.575244I

c = −1.271520 + 0.218579I

d = −0.788648 − 0.590297I

1.29562 − 8.75795I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.666542 + 1.084300I

a = −0.41901 + 1.68178I

b = −1.139490 − 0.559856I

c = −1.67095 + 0.67803I

d = −0.92819 − 1.72084I

−2.21245 − 7.79054I 0

u = 0.666542 − 1.084300I

a = −0.41901 − 1.68178I

b = −1.139490 + 0.559856I

c = −1.67095 − 0.67803I

d = −0.92819 + 1.72084I

−2.21245 + 7.79054I 0

u = 0.620529 + 0.325559I

a = 0.505847 + 0.065088I

b = 0.944687 − 0.250227I

c = 1.17082 − 0.90601I

d = 0.328371 − 0.105641I

0.115678 − 1.341920I −2.41782 + 1.83708I

u = 0.620529 − 0.325559I

a = 0.505847 − 0.065088I

b = 0.944687 + 0.250227I

c = 1.17082 + 0.90601I

d = 0.328371 + 0.105641I

0.115678 + 1.341920I −2.41782 − 1.83708I

u = 1.161000 + 0.625559I

a = 0.435979 + 0.124995I

b = 1.119470 − 0.607651I

c = 0.116799 − 1.332580I

d = 1.12055 − 2.13672I

3.39852 + 10.69180I 0

u = 1.161000 − 0.625559I

a = 0.435979 − 0.124995I

b = 1.119470 + 0.607651I

c = 0.116799 + 1.332580I

d = 1.12055 + 2.13672I

3.39852 − 10.69180I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.423653 + 0.527399I

a = 0.911492 − 0.383290I

b = −0.067745 + 0.392021I

c = 1.10825 − 1.37074I

d = 0.418849 + 0.237150I

1.92120 + 0.81846I 4.58107 + 0.87681I

u = 0.423653 − 0.527399I

a = 0.911492 + 0.383290I

b = −0.067745 − 0.392021I

c = 1.10825 + 1.37074I

d = 0.418849 − 0.237150I

1.92120 − 0.81846I 4.58107 − 0.87681I

u = 0.662834 + 0.003253I

a = 0.620162 + 0.068360I

b = 0.593125 − 0.175609I

c = 0.844082 + 0.426336I

d = 2.08843 + 0.88000I

0.58945 + 2.77011I −1.22579 − 6.61866I

u = 0.662834 − 0.003253I

a = 0.620162 − 0.068360I

b = 0.593125 + 0.175609I

c = 0.844082 − 0.426336I

d = 2.08843 − 0.88000I

0.58945 − 2.77011I −1.22579 + 6.61866I

u = −0.703559 + 1.143570I

a = −0.43434 − 1.56703I

b = −1.164260 + 0.592620I

c = 1.82114 + 0.75444I

d = 1.05029 − 2.27985I

0.07596 + 12.98220I 0

u = −0.703559 − 1.143570I

a = −0.43434 + 1.56703I

b = −1.164260 − 0.592620I

c = 1.82114 − 0.75444I

d = 1.05029 + 2.27985I

0.07596 − 12.98220I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.624723 + 1.201920I

a = 0.513586 − 0.684350I

b = −0.298481 + 0.934769I

c = 1.343470 − 0.036213I

d = 0.266666 + 0.986054I

5.70918 − 6.67323I 0

u = 0.624723 − 1.201920I

a = 0.513586 + 0.684350I

b = −0.298481 − 0.934769I

c = 1.343470 + 0.036213I

d = 0.266666 − 0.986054I

5.70918 + 6.67323I 0

u = −0.127875 + 0.624992I

a = 0.463873 − 0.011490I

b = 1.154440 + 0.053363I

c = 0.435762 − 0.358619I

d = −0.038269 + 0.332638I

−0.93270 − 1.56780I 1.99036 − 0.81001I

u = −0.127875 − 0.624992I

a = 0.463873 + 0.011490I

b = 1.154440 − 0.053363I

c = 0.435762 + 0.358619I

d = −0.038269 − 0.332638I

−0.93270 + 1.56780I 1.99036 + 0.81001I

u = 0.115044 + 1.357830I

a = 0.267455 + 1.195870I

b = −0.821892 − 0.796376I

c = 0.264755 + 0.381750I

d = −0.286633 − 1.330580I

9.14335 − 2.92995I 0

u = 0.115044 − 1.357830I

a = 0.267455 − 1.195870I

b = −0.821892 + 0.796376I

c = 0.264755 − 0.381750I

d = −0.286633 + 1.330580I

9.14335 + 2.92995I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.518606 + 1.307430I

a = 0.471054 + 0.753719I

b = −0.403718 − 0.954094I

c = −1.155440 + 0.212036I

d = 0.575561 + 0.435533I

10.68990 + 3.50430I 0

u = −0.518606 − 1.307430I

a = 0.471054 − 0.753719I

b = −0.403718 + 0.954094I

c = −1.155440 − 0.212036I

d = 0.575561 − 0.435533I

10.68990 − 3.50430I 0

u = −0.758435 + 1.184640I

a = −0.47779 − 1.47703I

b = −1.198260 + 0.612902I

c = −1.59692 − 0.12137I

d = −0.81262 + 1.86068I

2.97939 + 12.30500I 0

u = −0.758435 − 1.184640I

a = −0.47779 + 1.47703I

b = −1.198260 − 0.612902I

c = −1.59692 + 0.12137I

d = −0.81262 − 1.86068I

2.97939 − 12.30500I 0

u = −0.69467 + 1.24791I

a = 0.480437 + 0.659159I

b = −0.277875 − 0.990754I

c = −1.49960 + 0.03004I

d = −0.12141 + 1.59948I

8.2281 + 11.9338I 0

u = −0.69467 − 1.24791I

a = 0.480437 − 0.659159I

b = −0.277875 + 0.990754I

c = −1.49960 − 0.03004I

d = −0.12141 − 1.59948I

8.2281 − 11.9338I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.043030 + 0.567805I

a = 4.08839 − 1.11685I

b = −0.772390 + 0.062177I

c = 0.144313 − 0.425715I

d = −0.013781 + 0.345769I

−0.91327 + 2.30980I 2.35018 − 5.72620I

u = −0.043030 − 0.567805I

a = 4.08839 + 1.11685I

b = −0.772390 − 0.062177I

c = 0.144313 + 0.425715I

d = −0.013781 − 0.345769I

−0.91327 − 2.30980I 2.35018 + 5.72620I

u = 0.68480 + 1.26233I

a = −0.34737 + 1.42430I

b = −1.161620 − 0.662680I

c = 1.48561 + 0.06309I

d = −0.01550 + 1.56219I

8.38263 − 9.37788I 0

u = 0.68480 − 1.26233I

a = −0.34737 − 1.42430I

b = −1.161620 + 0.662680I

c = 1.48561 − 0.06309I

d = −0.01550 − 1.56219I

8.38263 + 9.37788I 0

u = 0.80648 + 1.20827I

a = −0.51585 + 1.41688I

b = −1.226880 − 0.623174I

c = 1.70051 − 0.09972I

d = 0.83764 + 2.32804I

5.3240 − 17.7550I 0

u = 0.80648 − 1.20827I

a = −0.51585 − 1.41688I

b = −1.226880 + 0.623174I

c = 1.70051 + 0.09972I

d = 0.83764 − 2.32804I

5.3240 + 17.7550I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.00564 + 1.45291I

a = 0.279733 − 1.057890I

b = −0.766380 + 0.883500I

c = 0.013236 + 0.605297I

d = −0.02236 − 1.73200I

13.06970 − 1.34685I 0

u = 0.00564 − 1.45291I

a = 0.279733 + 1.057890I

b = −0.766380 − 0.883500I

c = 0.013236 − 0.605297I

d = −0.02236 + 1.73200I

13.06970 + 1.34685I 0

u = −0.22004 + 1.44810I

a = 0.134599 − 1.184980I

b = −0.905365 + 0.833146I

c = −0.514065 + 0.581969I

d = 0.82290 − 1.33139I

12.6554 + 7.5654I 0

u = −0.22004 − 1.44810I

a = 0.134599 + 1.184980I

b = −0.905365 − 0.833146I

c = −0.514065 − 0.581969I

d = 0.82290 + 1.33139I

12.6554 − 7.5654I 0

u = −0.499413

a = 0.544041

b = 0.838096

c = −0.278989

d = −0.886893

−1.20722 −9.11790

II. I

= hu

− u

a + · · · − 4a + 4, u

− 2u

a + · · · − 2a + 2, a

+ b +

2a − 2, 2u

− 3u

a + · · · + a

+ u, u

+ u

+ u + 1i

(i) Arc colorings















−a

− 2a + 2





−u

+ 2u

a − a

u − 2u

− au + 2a − 2

−u

+ a

+ u

a − a

u − 2u

− au + 4a − 4





−u

− a

u + 2u

a − a

− 3au − 2u

+ 2u

−u

− a

− 3u

a + u

a + 2u

− a

− 5au − 2u

− 3a + 4u + 2





+ u

a + 2a − 2





+ u

a + 3a − 2

+ u

a + 2a − 2





+ u





a − a

u − 2u

+ au + 2a − 2u − 2

−u

+ 3u

a − 2a

u − 4u

+ au + 4a − 2u − 4





a − a

u − 2u

+ 2au + 2a − 2u − 2

−u

+ 4u

a − 2a

u − 4u

+ au + 4a − 2u − 4





−u

+ a

+ 2u

a − 2u

+ a

+ 2u

+ 3a − 2

−u

+ 2a

+ u

a − u

a − 2u

+ a

+ 2u

+ 5a − 4



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

+ 4u

− 2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 8u

+ ··· − 5u + 1

, c

− 4u

+ 2u

+ 6u

− 6u

− u

+ 6u

− 5u

− u

+ 3u

− u + 1

, c

+ u

+ u + 1)

+ 3u

+ 4u

+ 3u + 2)

− 2u

+ 3u

− u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 8y

+ ··· − 31y + 1

, c

− 8y

+ ··· + 5y + 1

, c

+ 2y

+ 3y

+ y + 1)

− y

+ 2y

+ 7y + 4)

+ 2y

+ 7y

+ 5y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.547424 + 0.585652I

a = 0.805204 + 0.420651I

b = −0.024351 − 0.509694I

c = 0.555240 + 0.479815I

d = 0.395109 + 0.559365I

−0.98010 + 1.39709I −3.77019 − 3.86736I

u = −0.547424 + 0.585652I

a = 0.468622 − 0.054836I

b = 1.105090 + 0.246330I

c = −1.24165 − 1.00900I

d = −2.55169 − 1.38604I

−0.98010 + 1.39709I −3.77019 − 3.86736I

u = −0.547424 + 0.585652I

a = −1.06407 − 3.47080I

b = −1.080740 + 0.263364I

c = −1.01721 − 1.29340I

d = −0.641886 + 0.175397I

−0.98010 + 1.39709I −3.77019 − 3.86736I

u = −0.547424 − 0.585652I

a = 0.805204 − 0.420651I

b = −0.024351 + 0.509694I

c = 0.555240 − 0.479815I

d = 0.395109 − 0.559365I

−0.98010 − 1.39709I −3.77019 + 3.86736I

u = −0.547424 − 0.585652I

a = 0.468622 + 0.054836I

b = 1.105090 − 0.246330I

c = −1.24165 + 1.00900I

d = −2.55169 + 1.38604I

−0.98010 − 1.39709I −3.77019 + 3.86736I

u = −0.547424 − 0.585652I

a = −1.06407 + 3.47080I

b = −1.080740 − 0.263364I

c = −1.01721 + 1.29340I

d = −0.641886 − 0.175397I

−0.98010 − 1.39709I −3.77019 + 3.86736I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.547424 + 1.120870I

a = 0.573365 − 0.708694I

b = −0.310026 + 0.852826I

c = −1.72860 + 0.38800I

d = −0.04577 − 1.58115I

2.62503 − 7.64338I 1.77019 + 6.51087I

u = 0.547424 + 1.120870I

a = 0.415110 + 0.046138I

b = 1.379600 − 0.264482I

c = 1.170990 − 0.175799I

d = 0.561298 + 0.342574I

2.62503 − 7.64338I 1.77019 + 6.51087I

u = 0.547424 + 1.120870I

a = −0.19823 + 1.67624I

b = −1.069580 − 0.588344I

c = 1.26123 − 1.65288I

d = 1.28293 + 2.03964I

2.62503 − 7.64338I 1.77019 + 6.51087I

u = 0.547424 − 1.120870I

a = 0.573365 + 0.708694I

b = −0.310026 − 0.852826I

c = −1.72860 − 0.38800I

d = −0.04577 + 1.58115I

2.62503 + 7.64338I 1.77019 − 6.51087I

u = 0.547424 − 1.120870I

a = 0.415110 − 0.046138I

b = 1.379600 + 0.264482I

c = 1.170990 + 0.175799I

d = 0.561298 − 0.342574I

2.62503 + 7.64338I 1.77019 − 6.51087I

u = 0.547424 − 1.120870I

a = −0.19823 − 1.67624I

b = −1.069580 + 0.588344I

c = 1.26123 + 1.65288I

d = 1.28293 − 2.03964I

2.62503 + 7.64338I 1.77019 − 6.51087I

III. I

= hu

− 4u

a + · · · + 8a − 8, −2u

a + 2u

+ · · · + 4a − 4, a

b + 2a − 2, −4u

+ 6u

a + · · · − 6a + 2, u

− u

+ · · · − 2u + 1i

(i) Arc colorings















−a

− 2a + 2





a − 2u

+ ··· − 4a + 4

−u

+ 4u

a + ··· − 8a + 8





+ 2u

+ 3u

a − a

− 2u

+ 2a

u + 5u

a − a

− 4u

+ 3a − 2

+ 3u

a + ··· − 2a

− a





+ u

a + 2a − 2





+ u

a + 3a − 2

+ u

a + 2a − 2





+ u





a − 2u

+ ··· − 4a + 4

a − 4u

+ ··· − 8a + 8





a − 2u

+ ··· − 4a + 4

a − 4u

+ ··· − 8a + 8





a − 4u

+ ··· − 5a + 4

−u

+ 6u

a + ··· − 9a + 8



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

− 4u + 2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 12u

+ ··· + 8u

+ 1

, c

− 6u

+ ··· − 2u

+ 1

, c

− u

+ 2u

− 2u

+ 2u

− 2u + 1)

− u

+ 1)

− 3u

+ 4u

− 2u

+ 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 12y

+ ··· + 16y + 1

, c

− 12y

+ ··· + 8y

+ 1

, c

+ 3y

+ 4y

+ 2y

+ 1)

− y

+ 2y − 1)

− y

+ 4y

− 2y

+ 8y

+ 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.498832 + 1.001300I

a = 0.661188 + 0.699980I

b = −0.286853 − 0.754987I

c = 1.44004 + 0.30697I

d = 0.171485 − 0.832500I

0.26574 + 2.82812I −1.50976 − 2.97945I

u = −0.498832 + 1.001300I

a = 0.426451 − 0.044014I

b = 1.320220 + 0.239468I

c = −1.064340 − 0.398265I

d = −0.994564 − 0.186619I

0.26574 + 2.82812I −1.50976 − 2.97945I

u = −0.498832 + 1.001300I

a = −0.12503 − 1.93170I

b = −1.033370 + 0.515520I

c = −1.17291 − 1.50894I

d = −0.97180 + 1.42148I

0.26574 + 2.82812I −1.50976 − 2.97945I

u = −0.498832 − 1.001300I

a = 0.661188 − 0.699980I

b = −0.286853 + 0.754987I

c = 1.44004 − 0.30697I

d = 0.171485 + 0.832500I

0.26574 − 2.82812I −1.50976 + 2.97945I

u = −0.498832 − 1.001300I

a = 0.426451 + 0.044014I

b = 1.320220 − 0.239468I

c = −1.064340 + 0.398265I

d = −0.994564 + 0.186619I

0.26574 − 2.82812I −1.50976 + 2.97945I

u = −0.498832 − 1.001300I

a = −0.12503 + 1.93170I

b = −1.033370 − 0.515520I

c = −1.17291 + 1.50894I

d = −0.97180 − 1.42148I

0.26574 − 2.82812I −1.50976 + 2.97945I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.284920 + 1.115140I

a = 0.633702 − 0.904691I

b = −0.480591 + 0.741524I

c = −1.63240 − 0.20951I

d = 0.919012 − 0.439251I

4.40332 5.01951 + 0.I

u = 0.284920 + 1.115140I

a = 0.419155 + 0.023943I

b = 1.377990 − 0.135834I

c = 0.633400 − 0.165486I

d = 0.184355 − 0.759840I

4.40332 5.01951 + 0.I

u = 0.284920 + 1.115140I

a = 0.27186 + 1.60496I

b = −0.897403 − 0.605690I

c = 1.42916 − 1.30860I

d = −0.10337 + 1.74578I

4.40332 5.01951 + 0.I

u = 0.284920 − 1.115140I

a = 0.633702 + 0.904691I

b = −0.480591 − 0.741524I

c = −1.63240 + 0.20951I

d = 0.919012 + 0.439251I

4.40332 5.01951 + 0.I

u = 0.284920 − 1.115140I

a = 0.419155 − 0.023943I

b = 1.377990 + 0.135834I

c = 0.633400 + 0.165486I

d = 0.184355 + 0.759840I

4.40332 5.01951 + 0.I

u = 0.284920 − 1.115140I

a = 0.27186 − 1.60496I

b = −0.897403 + 0.605690I

c = 1.42916 + 1.30860I

d = −0.10337 − 1.74578I

4.40332 5.01951 + 0.I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.713912 + 0.305839I

a = 0.699357 − 0.245678I

b = 0.272813 + 0.447127I

c = 0.033182 + 0.755013I

d = 0.26687 + 1.47455I

0.26574 + 2.82812I −1.50976 − 2.97945I

u = 0.713912 + 0.305839I

a = 0.509246 + 0.082706I

b = 0.913222 − 0.310725I

c = 1.33201 − 0.98810I

d = 3.24106 − 1.64838I

0.26574 + 2.82812I −1.50976 − 2.97945I

u = 0.713912 + 0.305839I

a = −3.49593 + 2.56326I

b = −1.186030 − 0.136403I

c = 1.001860 − 0.780958I

d = 0.286941 − 0.228535I

0.26574 + 2.82812I −1.50976 − 2.97945I

u = 0.713912 − 0.305839I

a = 0.699357 + 0.245678I

b = 0.272813 − 0.447127I

c = 0.033182 − 0.755013I

d = 0.26687 − 1.47455I

0.26574 − 2.82812I −1.50976 + 2.97945I

u = 0.713912 − 0.305839I

a = 0.509246 − 0.082706I

b = 0.913222 + 0.310725I

c = 1.33201 + 0.98810I

d = 3.24106 + 1.64838I

0.26574 − 2.82812I −1.50976 + 2.97945I

u = 0.713912 − 0.305839I

a = −3.49593 − 2.56326I

b = −1.186030 + 0.136403I

c = 1.001860 + 0.780958I

d = 0.286941 + 0.228535I

0.26574 − 2.82812I −1.50976 + 2.97945I

IV. I

= hc, d − v − 1, b, a − 1, v

+ v + 1i

(i) Arc colorings



















v + 1





−v

















v + 1





−v − 1





v + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v + 1

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1

, c

+ u + 1

(u + 1)

, c

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1

, c

(y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = −0.500000 + 0.866025I

a = 1.00000

b = 0

c = 0

d = 0.500000 + 0.866025I

1.64493 + 2.02988I 3.00000 − 3.46410I

v = −0.500000 − 0.866025I

a = 1.00000

b = 0

c = 0

d = 0.500000 − 0.866025I

1.64493 − 2.02988I 3.00000 + 3.46410I

V. I

= ha, d, c − v, b − 1, v

− v + 1i

(i) Arc colorings























v − 1





−1





−1

















−v



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v − 7

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

, c

+ u + 1

− u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y − 1)

, c

+ y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 0.500000 + 0.866025I

a = 0

b = 1.00000

c = 0.500000 + 0.866025I

d = 0

−1.64493 + 2.02988I −9.00000 − 3.46410I

v = 0.500000 − 0.866025I

a = 0

b = 1.00000

c = 0.500000 − 0.866025I

d = 0

−1.64493 − 2.02988I −9.00000 + 3.46410I

VI. I

= ha, d + 1, c + a, b − 1, v − 1i

(i) Arc colorings



















−1









−1





−1









−1









−1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 0

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u − 1

, c

u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y − 1

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 1.00000

a = 0

b = 1.00000

c = 0

d = −1.00000

0 0

VII.

= ha, −c

v + cv + · · · − 2ca + a, dv + 1, c

− v

c + · · · + a

− av, b − 1i

(i) Arc colorings























c − 1

dc + 1





−1





−1









c + v





−c

−d





d − c



(ii) Obstruction class = −1

(iii) Cusp Shapes = d

+ v

− 4c

(iv) u-Polynomials at the component : It cannot be deﬁned for a positive

dimension component.

(v) Riley Polynomials at the component : It cannot be deﬁned for a positive

dimension component.

(iv) Complex Volumes and Cusp Shapes

Solution to I

√

−1(vol +

√

−1CS) Cusp shape

v = ···

a = ···

b = ···

c = ···

d = ···

− 2.02988I 0.19616 + 2.89071I

VIII. u-Polynomials

Crossings u-Polynomials at each crossing

(u − 1)

+ 8u

+ ··· − 5u + 1)(u

+ 12u

+ ··· + 8u

+ 1)

· (u

+ 34u

+ ··· + 1568u + 256)

(u − 1)

· (u

− 4u

+ 2u

+ 6u

− 6u

− u

+ 6u

− 5u

− u

+ 3u

− u + 1)

· (u

− 6u

+ ··· − 2u

+ 1)(u

− 8u

+ ··· − 72u + 16)

, c

+ u

+ u + 1)

− u

+ 2u

− 2u

+ 2u

− 2u + 1)

· (u

+ 2u

+ ··· + 2560u

+ 512)

(u + 1)

· (u

− 4u

+ 2u

+ 6u

− 6u

− u

+ 6u

− 5u

− u

+ 3u

− u + 1)

· (u

− 6u

+ ··· − 2u

+ 1)(u

− 8u

+ ··· − 72u + 16)

u(u

− u + 1)(u

+ u + 1)(u

− u

+ 1)

+ 3u

+ 4u

+ 3u + 2)

· (u

+ 2u

+ ··· + 351912u + 66564)

, c

u(u

− u + 1)(u

+ u + 1)(u

+ u

+ u + 1)

· ((u

− u

+ 2u

− 2u

+ 2u

− 2u + 1)

)(u

− 2u

+ ··· − 27u

+ 4)

(u + 1)

· (u

− 4u

+ 2u

+ 6u

− 6u

− u

+ 6u

− 5u

− u

+ 3u

− u + 1)

· (u

− 6u

+ ··· − 2u

+ 1)(u

+ 8u

+ ··· − 72u + 16)

, c

(u − 1)

· (u

− 4u

+ 2u

+ 6u

− 6u

− u

+ 6u

− 5u

− u

+ 3u

− u + 1)

· (u

− 6u

+ ··· − 2u

+ 1)(u

+ 8u

+ ··· − 72u + 16)

u(u

+ u + 1)

− 2u

+ 3u

− u + 1)

− 3u

+ 4u

− 2u

+ 1)

· (u

− 36u

+ ··· + 216u + 16)

IX. Riley Polynomials

Crossings Riley Polynomials at each crossing

(y − 1)

− 8y

+ ··· − 31y + 1)(y

− 12y

+ ··· + 16y + 1)

· (y

+ 26y

+ ··· + 3416576y − 65536)

, c

(y − 1)

− 8y

+ ··· + 5y + 1)(y

− 12y

+ ··· + 8y

+ 1)

· (y

− 34y

+ ··· + 1568y − 256)

, c

+ 2y

+ 3y

+ y + 1)

+ 3y

+ 4y

+ 2y

+ 1)

· (y

+ 30y

+ ··· − 2621440y − 262144)

y(y

+ y + 1)

− y

+ 2y − 1)

− y

+ 2y

+ 7y + 4)

· (y

− 12y

+ ··· + 120020616504y − 4430766096)

, c

y(y

+ y + 1)

+ 2y

+ 3y

+ y + 1)

+ 3y

+ 4y

+ 2y

+ 1)

· (y

+ 36y

+ ··· + 216y − 16)

, c

(y − 1)

− 8y

+ ··· + 5y + 1)(y

− 12y

+ ··· + 8y

+ 1)

· (y

− 74y

+ ··· + 7712y − 256)

y(y

+ y + 1)

+ 2y

+ 7y

+ 5y + 1)

· ((y

− y

+ 4y

− 2y

+ 8y

+ 1)

)(y

+ 12y

+ ··· + 84256y − 256)