12a

0858

(K12a

0858

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

5,11 3,6

2 12 4 1 10 7 8 9

, c

Ideals for irreducible components

of X

par

= h−4.29209 × 10

154

103

− 9.15492 × 10

154

102

+ ··· + 1.10622 × 10

155

b − 5.83673 × 10

155

− 5.85136 × 10

155

103

− 1.74496 × 10

156

102

+ ··· + 1.10622 × 10

155

a − 7.67740 × 10

156

104

+ 3u

103

+ ··· + 31u + 1i

= h−u

− u

+ ··· + b − 3, 2u

+ 4u

+ ··· + a + 3, u

+ 2u

+ ··· + 8u + 1i

* 2 irreducible components of dim

= 0, with total 126 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−4.29 × 10

154

103

− 9.15 × 10

154

102

+ · · · + 1.11 × 10

155

b − 5.84 ×

155

, −5.85 × 10

155

103

− 1.74 × 10

156

102

+ · · · + 1.11 × 10

155

a − 7.68 ×

156

, u

104

+ 3u

103

+ · · · + 31u + 1i

(i) Arc colorings











5.28950u

103

+ 15.7740u

102

+ ··· + 1359.16u + 69.4021

0.387996u

103

+ 0.827586u

102

+ ··· + 112.043u + 5.27628





−u





4.90151u

103

+ 14.9465u

102

+ ··· + 1247.12u + 64.1258

0.387996u

103

+ 0.827586u

102

+ ··· + 112.043u + 5.27628





−5.09955u

103

− 15.8273u

102

+ ··· − 1348.62u − 60.5142

−0.268969u

103

− 1.64114u

102

+ ··· − 126.625u − 4.31384





5.26176u

103

+ 16.1541u

102

+ ··· + 1390.45u + 70.8132

0.154109u

103

+ 0.372863u

102

+ ··· + 117.159u + 5.24451





4.09794u

103

+ 11.9682u

102

+ ··· + 106.242u − 9.40838

−0.0216898u

103

− 0.0878425u

102

+ ··· − 77.7280u − 4.38713





−u

+ u





+ 1

−u

− 2u





−1.82974u

103

− 4.02329u

102

+ ··· − 596.508u − 12.8099

0.420981u

103

+ 1.67225u

102

+ ··· + 54.8748u + 3.69402





−u

− 2u

+ 3u

+ u



(ii) Obstruction class = −1

(iii) Cusp Shapes = −2.19505u

103

− 3.04834u

102

+ ··· − 478.535u − 23.6887

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

104

+ 8u

103

+ ··· + 14156u + 5744

104

+ 14u

102

+ ··· + 11537u + 1378

104

− u

103

+ ··· + 1584164u + 498521

104

+ 7u

102

+ ··· − 38u + 1

, c

104

+ 3u

103

+ ··· + 31u + 1

104

− u

103

+ ··· − 487679u + 95891

, c

104

− u

103

+ ··· − 125u + 142

104

+ 10u

103

+ ··· + 18056u + 1169

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

104

− 32y

103

+ ··· − 1389779440y + 32993536

104

+ 28y

103

+ ··· − 10876525y + 1898884

104

+ 49y

103

+ ··· + 10000134915712y + 248523187441

104

+ 14y

103

+ ··· − 30y + 1

, c

104

+ 131y

103

+ ··· − 163y + 1

104

+ 37y

103

+ ··· + 307454898715y + 9195083881

, c

104

− 61y

103

+ ··· − 477693y + 20164

104

+ 38y

103

+ ··· + 142466966y + 1366561

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.502898 + 0.916877I

a = 0.731786 + 1.022940I

b = −0.612116 + 0.969487I

−7.90140 − 3.33837I 0

u = −0.502898 − 0.916877I

a = 0.731786 − 1.022940I

b = −0.612116 − 0.969487I

−7.90140 + 3.33837I 0

u = −0.141268 + 0.942566I

a = −0.379999 − 0.233920I

b = −1.335470 − 0.351793I

−5.49881 + 1.95923I 0

u = −0.141268 − 0.942566I

a = −0.379999 + 0.233920I

b = −1.335470 + 0.351793I

−5.49881 − 1.95923I 0

u = −0.570868 + 0.880506I

a = −0.618818 − 0.625987I

b = 0.116597 − 1.104840I

−7.41549 − 5.38278I 0

u = −0.570868 − 0.880506I

a = −0.618818 + 0.625987I

b = 0.116597 + 1.104840I

−7.41549 + 5.38278I 0

u = 0.162376 + 1.044170I

a = 0.684256 + 0.359913I

b = 0.791948 + 0.317582I

−1.40281 + 2.16908I 0

u = 0.162376 − 1.044170I

a = 0.684256 − 0.359913I

b = 0.791948 − 0.317582I

−1.40281 − 2.16908I 0

u = 0.132711 + 1.052880I

a = 1.278520 − 0.335968I

b = 0.238919 − 0.386711I

−5.03707 − 0.16972I 0

u = 0.132711 − 1.052880I

a = 1.278520 + 0.335968I

b = 0.238919 + 0.386711I

−5.03707 + 0.16972I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.328304 + 0.862251I

a = 0.165679 + 1.388680I

b = 0.874529 + 0.960461I

−1.19082 + 2.99470I 0

u = 0.328304 − 0.862251I

a = 0.165679 − 1.388680I

b = 0.874529 − 0.960461I

−1.19082 − 2.99470I 0

u = −0.276342 + 0.874409I

a = −0.07809 − 1.99438I

b = 0.92580 − 1.20926I

−2.01960 − 5.44676I 0

u = −0.276342 − 0.874409I

a = −0.07809 + 1.99438I

b = 0.92580 + 1.20926I

−2.01960 + 5.44676I 0

u = 0.538764 + 0.944968I

a = 0.404249 − 1.083240I

b = −0.929614 − 0.978308I

−2.34922 + 8.42032I 0

u = 0.538764 − 0.944968I

a = 0.404249 + 1.083240I

b = −0.929614 + 0.978308I

−2.34922 − 8.42032I 0

u = −0.532031 + 0.950553I

a = 0.364609 + 1.272250I

b = −1.00220 + 1.14405I

−5.9219 − 14.4505I 0

u = −0.532031 − 0.950553I

a = 0.364609 − 1.272250I

b = −1.00220 − 1.14405I

−5.9219 + 14.4505I 0

u = −0.691545 + 0.883155I

a = −0.626007 + 0.058674I

b = −0.303448 − 0.699022I

−5.06268 + 5.04824I 0

u = −0.691545 − 0.883155I

a = −0.626007 − 0.058674I

b = −0.303448 + 0.699022I

−5.06268 − 5.04824I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.840047 + 0.076471I

a = 0.327363 + 0.245393I

b = −0.594520 − 0.700938I

0.76666 + 3.88111I 0

u = 0.840047 − 0.076471I

a = 0.327363 − 0.245393I

b = −0.594520 + 0.700938I

0.76666 − 3.88111I 0

u = 0.048893 + 0.839271I

a = −1.16896 + 2.29985I

b = 0.394853 + 0.947867I

−6.18765 + 5.05686I 0

u = 0.048893 − 0.839271I

a = −1.16896 − 2.29985I

b = 0.394853 − 0.947867I

−6.18765 − 5.05686I 0

u = 0.054307 + 0.830716I

a = 0.212346 + 1.076540I

b = −0.601861 + 1.043040I

−2.87472 + 1.68657I 0

u = 0.054307 − 0.830716I

a = 0.212346 − 1.076540I

b = −0.601861 − 1.043040I

−2.87472 − 1.68657I 0

u = −0.811464 + 0.083411I

a = 0.275473 − 0.260082I

b = −0.747402 + 0.862488I

−2.77324 − 9.99543I 0

u = −0.811464 − 0.083411I

a = 0.275473 + 0.260082I

b = −0.747402 − 0.862488I

−2.77324 + 9.99543I 0

u = −0.103146 + 0.808046I

a = −0.38687 − 1.52545I

b = −1.11179 − 1.59842I

−5.86231 − 5.76260I 0

u = −0.103146 − 0.808046I

a = −0.38687 + 1.52545I

b = −1.11179 + 1.59842I

−5.86231 + 5.76260I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.409728 + 0.673140I

a = −0.58461 + 1.34596I

b = 0.83524 + 1.36856I

−2.13658 + 6.08917I 0

u = 0.409728 − 0.673140I

a = −0.58461 − 1.34596I

b = 0.83524 − 1.36856I

−2.13658 − 6.08917I 0

u = −0.769636 + 0.053062I

a = 0.375105 − 0.232095I

b = −0.229831 + 0.894662I

−4.92977 + 0.88276I 0

u = −0.769636 − 0.053062I

a = 0.375105 + 0.232095I

b = −0.229831 − 0.894662I

−4.92977 − 0.88276I 0

u = 0.679892 + 1.028790I

a = −0.305880 + 0.158737I

b = 0.003951 + 0.615735I

−1.87702 + 1.33803I 0

u = 0.679892 − 1.028790I

a = −0.305880 − 0.158737I

b = 0.003951 − 0.615735I

−1.87702 − 1.33803I 0

u = −0.298746 + 0.693724I

a = −0.06811 + 2.41205I

b = −0.412342 + 0.182178I

−3.49112 − 6.57213I 0

u = −0.298746 − 0.693724I

a = −0.06811 − 2.41205I

b = −0.412342 − 0.182178I

−3.49112 + 6.57213I 0

u = −0.237343 + 0.668959I

a = −0.60277 − 1.51902I

b = 1.00094 − 1.13669I

−0.73294 − 3.33904I 0

u = −0.237343 − 0.668959I

a = −0.60277 + 1.51902I

b = 1.00094 + 1.13669I

−0.73294 + 3.33904I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.489607 + 0.472391I

a = 1.186520 − 0.254661I

b = −0.543846 − 0.236945I

0.80233 + 1.78889I 4.00000 + 2.53482I

u = 0.489607 − 0.472391I

a = 1.186520 + 0.254661I

b = −0.543846 + 0.236945I

0.80233 − 1.78889I 4.00000 − 2.53482I

u = −0.056856 + 0.667069I

a = −1.026160 − 0.899272I

b = 1.082170 − 0.479825I

−0.78029 − 2.45975I 1.56496 + 4.60534I

u = −0.056856 − 0.667069I

a = −1.026160 + 0.899272I

b = 1.082170 + 0.479825I

−0.78029 + 2.45975I 1.56496 − 4.60534I

u = 0.079539 + 0.659669I

a = 1.21852 + 1.18832I

b = 0.487415 + 0.558178I

−1.04432 + 1.94452I 0.44759 − 4.35481I

u = 0.079539 − 0.659669I

a = 1.21852 − 1.18832I

b = 0.487415 − 0.558178I

−1.04432 − 1.94452I 0.44759 + 4.35481I

u = −0.034529 + 1.367220I

a = 1.251690 − 0.268262I

b = 0.739942 − 0.073109I

−5.06693 − 0.49368I 0

u = −0.034529 − 1.367220I

a = 1.251690 + 0.268262I

b = 0.739942 + 0.073109I

−5.06693 + 0.49368I 0

u = 0.384071 + 0.487436I

a = 0.751499 − 1.132160I

b = −0.280619 + 0.013695I

0.74823 + 1.41717I 7.99103 − 4.76808I

u = 0.384071 − 0.487436I

a = 0.751499 + 1.132160I

b = −0.280619 − 0.013695I

0.74823 − 1.41717I 7.99103 + 4.76808I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.570445 + 0.227108I

a = 0.724932 + 0.725809I

b = 0.712694 − 0.892078I

−0.80561 − 2.69224I 0.86014 + 3.46707I

u = 0.570445 − 0.227108I

a = 0.724932 − 0.725809I

b = 0.712694 + 0.892078I

−0.80561 + 2.69224I 0.86014 − 3.46707I

u = −0.397156 + 0.323544I

a = 0.93708 − 1.37258I

b = 0.822579 + 0.535327I

0.221336 + 1.123620I 1.97465 + 3.42457I

u = −0.397156 − 0.323544I

a = 0.93708 + 1.37258I

b = 0.822579 − 0.535327I

0.221336 − 1.123620I 1.97465 − 3.42457I

u = 0.506465 + 0.002396I

a = −0.105042 − 0.152201I

b = 0.804872 + 0.250234I

1.43831 + 0.12872I 9.00370 + 1.16576I

u = 0.506465 − 0.002396I

a = −0.105042 + 0.152201I

b = 0.804872 − 0.250234I

1.43831 − 0.12872I 9.00370 − 1.16576I

u = 0.11093 + 1.51234I

a = 0.523741 − 0.597490I

b = −0.777182 − 0.293338I

−5.75279 + 3.87407I 0

u = 0.11093 − 1.51234I

a = 0.523741 + 0.597490I

b = −0.777182 + 0.293338I

−5.75279 − 3.87407I 0

u = −0.450202 + 0.168694I

a = 1.57697 − 0.98184I

b = −0.849531 − 0.131713I

−1.99105 + 3.91633I 4.79400 − 3.67932I

u = −0.450202 − 0.168694I

a = 1.57697 + 0.98184I

b = −0.849531 + 0.131713I

−1.99105 − 3.91633I 4.79400 + 3.67932I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.408993 + 0.061968I

a = −0.870341 + 0.284115I

b = 0.920328 − 0.783783I

0.80123 − 3.04052I 6.83565 + 8.73795I

u = −0.408993 − 0.061968I

a = −0.870341 − 0.284115I

b = 0.920328 + 0.783783I

0.80123 + 3.04052I 6.83565 − 8.73795I

u = 0.06184 + 1.59500I

a = 0.23501 − 1.40430I

b = −0.076351 − 0.495907I

−6.51615 + 2.69010I 0

u = 0.06184 − 1.59500I

a = 0.23501 + 1.40430I

b = −0.076351 + 0.495907I

−6.51615 − 2.69010I 0

u = −0.00686 + 1.59874I

a = 0.49443 + 1.47750I

b = 0.070839 + 0.929945I

−8.76444 + 2.10610I 0

u = −0.00686 − 1.59874I

a = 0.49443 − 1.47750I

b = 0.070839 − 0.929945I

−8.76444 − 2.10610I 0

u = 0.09071 + 1.62099I

a = 0.38141 + 2.24288I

b = 1.04947 + 1.86313I

−10.04900 + 7.81578I 0

u = 0.09071 − 1.62099I

a = 0.38141 − 2.24288I

b = 1.04947 − 1.86313I

−10.04900 − 7.81578I 0

u = −0.05613 + 1.63119I

a = 0.57924 − 1.96031I

b = 1.30610 − 1.53456I

−8.81712 − 4.37016I 0

u = −0.05613 − 1.63119I

a = 0.57924 + 1.96031I

b = 1.30610 + 1.53456I

−8.81712 + 4.37016I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.01126 + 1.63337I

a = 0.360804 − 0.737559I

b = 1.43899 − 0.49323I

−8.92043 − 2.68470I 0

u = −0.01126 − 1.63337I

a = 0.360804 + 0.737559I

b = 1.43899 + 0.49323I

−8.92043 + 2.68470I 0

u = −0.06741 + 1.63246I

a = −0.29501 + 1.81166I

b = −0.151442 + 0.454421I

−11.61330 − 7.84388I 0

u = −0.06741 − 1.63246I

a = −0.29501 − 1.81166I

b = −0.151442 − 0.454421I

−11.61330 + 7.84388I 0

u = −0.02728 + 1.66296I

a = −1.15006 − 2.07477I

b = −1.55205 − 1.96957I

−14.5853 − 6.2594I 0

u = −0.02728 − 1.66296I

a = −1.15006 + 2.07477I

b = −1.55205 + 1.96957I

−14.5853 + 6.2594I 0

u = 0.01513 + 1.66372I

a = −0.59500 + 1.59738I

b = −1.07841 + 1.42400I

−11.65700 + 1.95959I 0

u = 0.01513 − 1.66372I

a = −0.59500 − 1.59738I

b = −1.07841 − 1.42400I

−11.65700 − 1.95959I 0

u = 0.01664 + 1.66945I

a = −0.28312 + 1.86519I

b = 0.674892 + 1.040730I

−15.0505 + 5.3333I 0

u = 0.01664 − 1.66945I

a = −0.28312 − 1.86519I

b = 0.674892 − 1.040730I

−15.0505 − 5.3333I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.08409 + 1.67730I

a = 0.62495 + 1.93763I

b = 1.02211 + 1.51213I

−10.09910 + 4.56839I 0

u = 0.08409 − 1.67730I

a = 0.62495 − 1.93763I

b = 1.02211 − 1.51213I

−10.09910 − 4.56839I 0

u = −0.07088 + 1.68001I

a = 0.47194 − 2.25156I

b = 0.94189 − 1.58874I

−11.00560 − 6.77939I 0

u = −0.07088 − 1.68001I

a = 0.47194 + 2.25156I

b = 0.94189 + 1.58874I

−11.00560 + 6.77939I 0

u = −0.16505 + 1.67970I

a = −0.30640 − 1.49193I

b = 0.32631 − 1.38443I

−16.2170 − 8.2628I 0

u = −0.16505 − 1.67970I

a = −0.30640 + 1.49193I

b = 0.32631 + 1.38443I

−16.2170 + 8.2628I 0

u = −0.14240 + 1.68308I

a = 0.07083 + 1.53547I

b = −0.87679 + 1.11168I

−16.8778 − 5.8754I 0

u = −0.14240 − 1.68308I

a = 0.07083 − 1.53547I

b = −0.87679 − 1.11168I

−16.8778 + 5.8754I 0

u = −0.02267 + 1.69173I

a = −1.205200 − 0.631112I

b = −1.77192 − 0.61321I

−14.8104 + 1.4077I 0

u = −0.02267 − 1.69173I

a = −1.205200 + 0.631112I

b = −1.77192 + 0.61321I

−14.8104 − 1.4077I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.15326 + 1.69277I

a = −0.25585 − 1.64137I

b = −1.14981 − 1.22068I

−11.4479 + 11.1627I 0

u = 0.15326 − 1.69277I

a = −0.25585 + 1.64137I

b = −1.14981 + 1.22068I

−11.4479 − 11.1627I 0

u = 0.01869 + 1.70226I

a = 0.422433 − 0.545258I

b = −0.425173 − 0.406842I

−14.6931 + 0.3069I 0

u = 0.01869 − 1.70226I

a = 0.422433 + 0.545258I

b = −0.425173 + 0.406842I

−14.6931 − 0.3069I 0

u = −0.15215 + 1.69617I

a = −0.29351 + 1.85137I

b = −1.17227 + 1.39675I

−15.0671 − 17.1743I 0

u = −0.15215 − 1.69617I

a = −0.29351 − 1.85137I

b = −1.17227 − 1.39675I

−15.0671 + 17.1743I 0

u = 0.13765 + 1.71554I

a = 0.141859 + 1.187960I

b = 0.617032 + 1.085440I

−11.58530 + 4.29339I 0

u = 0.13765 − 1.71554I

a = 0.141859 − 1.187960I

b = 0.617032 − 1.085440I

−11.58530 − 4.29339I 0

u = −0.135262 + 0.224383I

a = 1.70040 − 2.96158I

b = 0.335448 + 0.496452I

0.13864 + 1.58495I 1.31807 − 1.97880I

u = −0.135262 − 0.224383I

a = 1.70040 + 2.96158I

b = 0.335448 − 0.496452I

0.13864 − 1.58495I 1.31807 + 1.97880I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.19178 + 1.74653I

a = −0.156767 − 0.694979I

b = 0.304116 − 0.753836I

−14.2097 + 1.3446I 0

u = −0.19178 − 1.74653I

a = −0.156767 + 0.694979I

b = 0.304116 + 0.753836I

−14.2097 − 1.3446I 0

u = −0.0819509 + 0.0317781I

a = 4.88891 + 11.43510I

b = −0.253995 + 1.080020I

−3.58644 + 4.97389I 1.73611 − 5.61537I

u = −0.0819509 − 0.0317781I

a = 4.88891 − 11.43510I

b = −0.253995 − 1.080020I

−3.58644 − 4.97389I 1.73611 + 5.61537I

II.

= h−u

−u

+· · ·+b−3, 2u

+4u

+· · ·+a+3, u

+2u

+· · ·+8u+1i

(i) Arc colorings











−2u

− 4u

+ ··· − 30u − 3

+ u

+ ··· + 12u + 3





−u





−3u

− 5u

+ ··· − 42u − 6

+ u

+ ··· + 12u + 3





−u

− 15u

+ ··· − 9u + 1

+ 3u

+ ··· + 23u + 3





−3u

− 5u

+ ··· − 42u − 5

+ 3u

+ ··· + 25u + 5





−2u

− 3u

+ ··· − 40u

− 14u

+ 3u

+ ··· + 25u + 4





−u

+ u





+ 1

−u

− 2u





+ u

+ ··· + 17u + 2

−u

− 2u

+ ··· − 15u − 3





−u

− 2u

+ 3u

+ u



(ii) Obstruction class = 1

(iii) Cusp Shapes =

−10u

−7u

−141u

−90u

−840u

−473u

−2754u

−1311u

−5433u

−2083u

−

6642u

−1999u

−5017u

−1297u

−2278u

−654u

−592u

−202u

−84u

−22u

−19u+4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 13u

+ ··· − 11u + 1

+ 9u

+ ··· + 5u + 1

+ 4u

+ ··· + u + 1

+ u

+ ··· + u + 1

, c

+ 2u

+ ··· + 8u + 1

+ 4u

+ ··· + 2u + 1

− 5u

+ ··· − u + 1

, c

− 2u

+ ··· − 8u + 1

+ u

+ ··· + u + 1

− 5u

+ ··· + u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 3y

+ ··· + 23y + 1

+ 7y

+ ··· + 11y + 1

+ 8y

+ ··· + 19y + 1

+ 13y

+ ··· + 9y + 1

, c

+ 30y

+ ··· + 52y

+ 1

+ 8y

+ ··· − 10y + 1

, c

− 10y

+ ··· − 15y + 1

+ 9y

+ ··· + 13y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.260039 + 0.814231I

a = −0.07282 − 1.69631I

b = 1.02045 − 1.27936I

−1.50865 − 4.06278I −1.73350 + 7.43931I

u = −0.260039 − 0.814231I

a = −0.07282 + 1.69631I

b = 1.02045 + 1.27936I

−1.50865 + 4.06278I −1.73350 − 7.43931I

u = −0.513392 + 1.101110I

a = 0.331724 − 0.097201I

b = 0.009125 + 0.374583I

−1.54750 − 1.16736I 6.12536 − 5.58688I

u = −0.513392 − 1.101110I

a = 0.331724 + 0.097201I

b = 0.009125 − 0.374583I

−1.54750 + 1.16736I 6.12536 + 5.58688I

u = 0.342694 + 0.691677I

a = −0.037082 + 0.398376I

b = −0.351209 − 0.606327I

−4.42431 − 3.92780I −1.78221 + 1.52974I

u = 0.342694 − 0.691677I

a = −0.037082 − 0.398376I

b = −0.351209 + 0.606327I

−4.42431 + 3.92780I −1.78221 − 1.52974I

u = 0.225543 + 0.680682I

a = −1.11825 + 2.21918I

b = −0.051851 + 1.135470I

−4.53032 + 5.87417I −3.21531 − 7.87829I

u = 0.225543 − 0.680682I

a = −1.11825 − 2.21918I

b = −0.051851 − 1.135470I

−4.53032 − 5.87417I −3.21531 + 7.87829I

u = −0.04968 + 1.42999I

a = 1.348280 + 0.372464I

b = 0.996629 + 0.422487I

−4.80045 + 1.01728I 2.84745 − 8.71021I

u = −0.04968 − 1.42999I

a = 1.348280 − 0.372464I

b = 0.996629 − 0.422487I

−4.80045 − 1.01728I 2.84745 + 8.71021I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.421916 + 0.289657I

a = −1.71025 + 0.48258I

b = 0.603986 − 0.426323I

0.74603 − 2.40280I 5.79656 + 9.33997I

u = −0.421916 − 0.289657I

a = −1.71025 − 0.48258I

b = 0.603986 + 0.426323I

0.74603 + 2.40280I 5.79656 − 9.33997I

u = −0.08819 + 1.52280I

a = −0.597078 − 0.689567I

b = 0.816795 − 0.301665I

−5.54671 − 3.96043I 17.2601 + 10.8631I

u = −0.08819 − 1.52280I

a = −0.597078 + 0.689567I

b = 0.816795 + 0.301665I

−5.54671 + 3.96043I 17.2601 − 10.8631I

u = 0.06151 + 1.64708I

a = −0.21693 + 2.25230I

b = 0.12336 + 1.51523I

−12.7952 + 6.9466I −4.71884 − 5.98802I

u = 0.06151 − 1.64708I

a = −0.21693 − 2.25230I

b = 0.12336 − 1.51523I

−12.7952 − 6.9466I −4.71884 + 5.98802I

u = −0.07021 + 1.67025I

a = 0.67086 − 2.16616I

b = 1.18851 − 1.72785I

−10.26870 − 5.32986I −2.59736 + 6.54048I

u = −0.07021 − 1.67025I

a = 0.67086 + 2.16616I

b = 1.18851 + 1.72785I

−10.26870 + 5.32986I −2.59736 − 6.54048I

u = −0.283622 + 0.162602I

a = 1.20764 − 1.85056I

b = 0.937792 + 0.676253I

0.54699 + 1.98347I 7.55461 − 2.60545I

u = −0.283622 − 0.162602I

a = 1.20764 + 1.85056I

b = 0.937792 − 0.676253I

0.54699 − 1.98347I 7.55461 + 2.60545I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.05730 + 1.72809I

a = −0.306085 + 0.092293I

b = −0.793590 − 0.075830I

−13.44380 − 2.19567I −2.03687 + 5.18624I

u = 0.05730 − 1.72809I

a = −0.306085 − 0.092293I

b = −0.793590 + 0.075830I

−13.44380 + 2.19567I −2.03687 − 5.18624I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 13u

+ ··· − 11u + 1)(u

104

+ 8u

103

+ ··· + 14156u + 5744)

+ 9u

+ ··· + 5u + 1)(u

104

+ 14u

102

+ ··· + 11537u + 1378)

+ 4u

+ ··· + u + 1)(u

104

− u

103

+ ··· + 1584164u + 498521)

+ u

+ ··· + u + 1)(u

104

+ 7u

102

+ ··· − 38u + 1)

, c

+ 2u

+ ··· + 8u + 1)(u

104

+ 3u

103

+ ··· + 31u + 1)

+ 4u

+ ··· + 2u + 1)(u

104

− u

103

+ ··· − 487679u + 95891)

− 5u

+ ··· − u + 1)(u

104

− u

103

+ ··· − 125u + 142)

, c

− 2u

+ ··· − 8u + 1)(u

104

+ 3u

103

+ ··· + 31u + 1)

+ u

+ ··· + u + 1)(u

104

+ 10u

103

+ ··· + 18056u + 1169)

− 5u

+ ··· + u + 1)(u

104

− u

103

+ ··· − 125u + 142)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 3y

+ ··· + 23y + 1)

· (y

104

− 32y

103

+ ··· − 1389779440y + 32993536)

+ 7y

+ ··· + 11y + 1)

· (y

104

+ 28y

103

+ ··· − 10876525y + 1898884)

+ 8y

+ ··· + 19y + 1)

· (y

104

+ 49y

103

+ ··· + 10000134915712y + 248523187441)

+ 13y

+ ··· + 9y + 1)(y

104

+ 14y

103

+ ··· − 30y + 1)

, c

+ 30y

+ ··· + 52y

+ 1)(y

104

+ 131y

103

+ ··· − 163y + 1)

+ 8y

+ ··· − 10y + 1)

· (y

104

+ 37y

103

+ ··· + 307454898715y + 9195083881)

, c

− 10y

+ ··· − 15y + 1)(y

104

− 61y

103

+ ··· − 477693y + 20164)

+ 9y

+ ··· + 13y + 1)

· (y

104

+ 38y

103

+ ··· + 142466966y + 1366561)