12a

0017

(K12a

0017

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,11 4,8

9 5 12 1 10 6 3 2

, c

Ideals for irreducible components

of X

par

= hu

122

+ 5u

121

+ ··· + 2b − 8, −17u

122

+ 41u

121

+ ··· + 2a − 15, u

123

− 3u

122

+ ··· + 2u − 1i

= h−u

a + b, −u

a − u

a + u

a − u

+ a

+ au − u

+ 1, u

+ u

− u

− 2u

+ u + 1i

* 2 irreducible components of dim

= 0, with total 135 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

= hu

122

+ 5u

121

+ · · · + 2b − 8, −17u

122

+ 41u

121

+ · · · + 2a −

15, u

123

− 3u

122

+ · · · + 2u − 1i

(i) Arc colorings











122

−

121

+ ··· − 11u +

−

122

−

121

+ ··· +

u + 4









−u

+ 2u

− 2u

+ u

−u

+ 3u

− 4u

+ 3u

− u

+ u





122

−

121

+ ··· − 3u +

122

121

+ ··· −





−u

+ u





−u

+ u





− u

+ u





− u

+ u

+ 1

− 2u

+ 3u

− 2u

+ u





122

− 12u

121

+ ··· − 5u +

−u

122

+ 29u

120

+ ··· +

u + 2





−u

122

+ 2u

121

+ ··· + 3u −

119

−

118

+ ··· − 2u



(ii) Obstruction class = −1

(iii) Cusp Shapes = −13u

122

121

+ ··· +

u − 14

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

123

+ 61u

122

+ ··· − 6u − 1

, c

123

+ 7u

122

+ ··· + 8u + 1

123

− 7u

122

+ ··· − 128330u + 93361

, c

123

− u

122

+ ··· + 4096u + 4096

123

− 3u

122

+ ··· − 10870u + 2425

, c

123

+ 3u

122

+ ··· + 2u + 1

123

+ 13u

122

+ ··· + 429074u + 27289

123

+ 59u

122

+ ··· − 2u + 1

123

+ 9u

122

+ ··· + 4066u + 1237

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

123

+ 9y

122

+ ··· − 14y −1

, c

123

+ 61y

122

+ ··· − 6y −1

123

− 43y

122

+ ··· − 33652263950y −8716276321

, c

123

− 65y

122

+ ··· + 419430400y −16777216

123

− 19y

122

+ ··· + 113874350y −5880625

, c

123

− 59y

122

+ ··· − 2y −1

123

+ 41y

122

+ ··· − 732678681206y −744689521

123

+ 13y

122

+ ··· − 14y −1

123

+ 33y

122

+ ··· − 130598898y −1530169

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.854485 + 0.561421I

a = 0.003316 − 0.563932I

b = −0.626981 + 0.060520I

−4.46926 − 2.02015I 0

u = 0.854485 − 0.561421I

a = 0.003316 + 0.563932I

b = −0.626981 − 0.060520I

−4.46926 + 2.02015I 0

u = 1.033990 + 0.061446I

a = 1.025610 + 0.127051I

b = 0.0245682 + 0.0714771I

−4.13307 − 3.64032I 0

u = 1.033990 − 0.061446I

a = 1.025610 − 0.127051I

b = 0.0245682 − 0.0714771I

−4.13307 + 3.64032I 0

u = 1.019840 + 0.221186I

a = −0.572632 − 0.294367I

b = 0.092325 − 0.139506I

−1.90019 − 0.28526I 0

u = 1.019840 − 0.221186I

a = −0.572632 + 0.294367I

b = 0.092325 + 0.139506I

−1.90019 + 0.28526I 0

u = 0.657781 + 0.664492I

a = −0.27330 + 1.72372I

b = −0.297545 + 0.371755I

−1.85277 − 10.74350I 0

u = 0.657781 − 0.664492I

a = −0.27330 − 1.72372I

b = −0.297545 − 0.371755I

−1.85277 + 10.74350I 0

u = 0.687369 + 0.623539I

a = −0.29318 + 1.44183I

b = −0.048159 + 0.259545I

−3.96911 − 2.64638I 0

u = 0.687369 − 0.623539I

a = −0.29318 − 1.44183I

b = −0.048159 − 0.259545I

−3.96911 + 2.64638I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.917903 + 0.565000I

a = 0.082196 + 0.192568I

b = 0.905526 − 0.344687I

−0.166656 + 0.924245I 0

u = 0.917903 − 0.565000I

a = 0.082196 − 0.192568I

b = 0.905526 + 0.344687I

−0.166656 − 0.924245I 0

u = −0.962014 + 0.501805I

a = 1.14651 + 1.46118I

b = 1.71891 + 0.68501I

−0.279306 − 0.572542I 0

u = −0.962014 − 0.501805I

a = 1.14651 − 1.46118I

b = 1.71891 − 0.68501I

−0.279306 + 0.572542I 0

u = 0.648152 + 0.645593I

a = 0.38530 − 1.67689I

b = 0.281699 − 0.248240I

0.62783 − 5.66862I 0

u = 0.648152 − 0.645593I

a = 0.38530 + 1.67689I

b = 0.281699 + 0.248240I

0.62783 + 5.66862I 0

u = 0.912418 + 0.590250I

a = −0.263358 − 0.252976I

b = −1.030770 + 0.176984I

−2.60544 + 5.87088I 0

u = 0.912418 − 0.590250I

a = −0.263358 + 0.252976I

b = −1.030770 − 0.176984I

−2.60544 − 5.87088I 0

u = 1.048540 + 0.385425I

a = 0.433108 − 0.660989I

b = 0.422710 + 0.320271I

−3.06638 − 1.39605I 0

u = 1.048540 − 0.385425I

a = 0.433108 + 0.660989I

b = 0.422710 − 0.320271I

−3.06638 + 1.39605I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.985605 + 0.527401I

a = −0.412366 − 0.202768I

b = 0.696926 − 1.116170I

1.30652 − 1.06855I 0

u = 0.985605 − 0.527401I

a = −0.412366 + 0.202768I

b = 0.696926 + 1.116170I

1.30652 + 1.06855I 0

u = 1.087640 + 0.274343I

a = −0.353683 − 0.740293I

b = 0.250172 − 0.184177I

−2.47005 − 0.30272I 0

u = 1.087640 − 0.274343I

a = −0.353683 + 0.740293I

b = 0.250172 + 0.184177I

−2.47005 + 0.30272I 0

u = −0.505350 + 0.716113I

a = 0.828458 + 0.277865I

b = 0.921356 − 0.358807I

1.06865 − 4.56495I 0

u = −0.505350 − 0.716113I

a = 0.828458 − 0.277865I

b = 0.921356 + 0.358807I

1.06865 + 4.56495I 0

u = −0.995492 + 0.532233I

a = −0.97900 − 1.25049I

b = −1.45523 − 0.58880I

1.41929 + 3.95035I 0

u = −0.995492 − 0.532233I

a = −0.97900 + 1.25049I

b = −1.45523 + 0.58880I

1.41929 − 3.95035I 0

u = −1.095060 + 0.295281I

a = 3.02439 + 0.12421I

b = 2.53218 − 1.86329I

−3.16948 + 2.81128I 0

u = −1.095060 − 0.295281I

a = 3.02439 − 0.12421I

b = 2.53218 + 1.86329I

−3.16948 − 2.81128I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.102410 + 0.267908I

a = −2.77281 + 0.10154I

b = −2.15753 + 2.01225I

−2.88698 − 2.46184I 0

u = −1.102410 − 0.267908I

a = −2.77281 − 0.10154I

b = −2.15753 − 2.01225I

−2.88698 + 2.46184I 0

u = −0.448019 + 0.736719I

a = 0.745796 − 0.073275I

b = 0.594549 − 0.660727I

0.78043 + 2.03644I 0

u = −0.448019 − 0.736719I

a = 0.745796 + 0.073275I

b = 0.594549 + 0.660727I

0.78043 − 2.03644I 0

u = 0.858281

a = −0.927426

b = 0.108938

−1.50207 −5.95250

u = 1.017760 + 0.522481I

a = 0.811698 + 0.352586I

b = −0.44309 + 1.64463I

0.27133 − 5.98593I 0

u = 1.017760 − 0.522481I

a = 0.811698 − 0.352586I

b = −0.44309 − 1.64463I

0.27133 + 5.98593I 0

u = −0.621924 + 0.587387I

a = 0.727972 + 1.082340I

b = 1.223970 + 0.460141I

0.70009 + 4.93753I 0

u = −0.621924 − 0.587387I

a = 0.727972 − 1.082340I

b = 1.223970 − 0.460141I

0.70009 − 4.93753I 0

u = 0.326719 + 0.783768I

a = −0.60353 − 1.35303I

b = 2.26170 − 0.29466I

−3.54566 + 13.00910I 0. − 8.03983I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.326719 − 0.783768I

a = −0.60353 + 1.35303I

b = 2.26170 + 0.29466I

−3.54566 − 13.00910I 0. + 8.03983I

u = 1.123590 + 0.265053I

a = 0.502221 + 0.942772I

b = −0.263992 + 0.306687I

−5.04425 + 3.82260I 0

u = 1.123590 − 0.265053I

a = 0.502221 − 0.942772I

b = −0.263992 − 0.306687I

−5.04425 − 3.82260I 0

u = −0.510966 + 0.671472I

a = −0.654545 − 0.468997I

b = −0.869605 + 0.071896I

2.93696 − 0.44778I 0

u = −0.510966 − 0.671472I

a = −0.654545 + 0.468997I

b = −0.869605 − 0.071896I

2.93696 + 0.44778I 0

u = 1.119360 + 0.310725I

a = 0.185438 + 1.038430I

b = −0.432873 + 0.226764I

−5.53092 − 3.70026I 0

u = 1.119360 − 0.310725I

a = 0.185438 − 1.038430I

b = −0.432873 − 0.226764I

−5.53092 + 3.70026I 0

u = 0.324855 + 0.771366I

a = 0.72033 + 1.32461I

b = −2.21918 + 0.30802I

−0.98344 + 7.78701I 0. − 4.67811I

u = 0.324855 − 0.771366I

a = 0.72033 − 1.32461I

b = −2.21918 − 0.30802I

−0.98344 − 7.78701I 0. + 4.67811I

u = 0.581489 + 0.598075I

a = 0.89914 − 1.66803I

b = 0.309435 + 0.200315I

2.49653 − 3.41082I 0. + 7.23745I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.581489 − 0.598075I

a = 0.89914 + 1.66803I

b = 0.309435 − 0.200315I

2.49653 + 3.41082I 0. − 7.23745I

u = −1.142960 + 0.238255I

a = −2.32696 − 0.11666I

b = −1.74160 + 1.67456I

−5.56302 − 4.94470I 0

u = −1.142960 − 0.238255I

a = −2.32696 + 0.11666I

b = −1.74160 − 1.67456I

−5.56302 + 4.94470I 0

u = −1.063460 + 0.492512I

a = 1.46708 + 0.61955I

b = 1.53045 − 0.21359I

−2.35808 + 5.38729I 0

u = −1.063460 − 0.492512I

a = 1.46708 − 0.61955I

b = 1.53045 + 0.21359I

−2.35808 − 5.38729I 0

u = 0.300988 + 0.770638I

a = −0.690849 − 1.102760I

b = 2.17376 − 0.22546I

−5.84365 + 4.55880I −6.44547 − 2.49035I

u = 0.300988 − 0.770638I

a = −0.690849 + 1.102760I

b = 2.17376 + 0.22546I

−5.84365 − 4.55880I −6.44547 + 2.49035I

u = −0.563362 + 0.602679I

a = −0.615246 − 0.881766I

b = −1.040120 − 0.318191I

2.69193 + 0.55935I 3.98610 + 0.I

u = −0.563362 − 0.602679I

a = −0.615246 + 0.881766I

b = −1.040120 + 0.318191I

2.69193 − 0.55935I 3.98610 + 0.I

u = −1.152950 + 0.230458I

a = 2.24298 + 0.18923I

b = 1.66975 − 1.59343I

−8.21753 − 10.13550I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.152950 − 0.230458I

a = 2.24298 − 0.18923I

b = 1.66975 + 1.59343I

−8.21753 + 10.13550I 0

u = −0.405700 + 0.715550I

a = −0.547830 + 0.258526I

b = −0.233364 + 0.680720I

2.43695 − 1.70720I 1.69325 + 0.I

u = −0.405700 − 0.715550I

a = −0.547830 − 0.258526I

b = −0.233364 − 0.680720I

2.43695 + 1.70720I 1.69325 + 0.I

u = −1.030200 + 0.571691I

a = −0.516402 − 1.134700I

b = −0.985503 − 0.722266I

1.40801 + 5.27406I 0

u = −1.030200 − 0.571691I

a = −0.516402 + 1.134700I

b = −0.985503 + 0.722266I

1.40801 − 5.27406I 0

u = −1.153290 + 0.256833I

a = 2.45010 + 0.23769I

b = 1.88125 − 1.56566I

−10.34180 − 1.56416I 0

u = −1.153290 − 0.256833I

a = 2.45010 − 0.23769I

b = 1.88125 + 1.56566I

−10.34180 + 1.56416I 0

u = −1.141170 + 0.345577I

a = 2.74400 + 0.42807I

b = 2.32803 − 1.27018I

−6.77873 + 4.44845I 0

u = −1.141170 − 0.345577I

a = 2.74400 − 0.42807I

b = 2.32803 + 1.27018I

−6.77873 − 4.44845I 0

u = −1.039880 + 0.593668I

a = 0.269757 + 1.286620I

b = 0.839442 + 0.975017I

−0.50937 + 9.58006I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.039880 − 0.593668I

a = 0.269757 − 1.286620I

b = 0.839442 − 0.975017I

−0.50937 − 9.58006I 0

u = −0.314117 + 0.738169I

a = 0.575358 − 0.604862I

b = −0.157550 − 1.089370I

−0.72558 − 6.64128I −2.45271 + 5.62875I

u = −0.314117 − 0.738169I

a = 0.575358 + 0.604862I

b = −0.157550 + 1.089370I

−0.72558 + 6.64128I −2.45271 − 5.62875I

u = −1.154440 + 0.326977I

a = −2.73063 − 0.39678I

b = −2.24616 + 1.33762I

−11.15920 + 0.73897I 0

u = −1.154440 − 0.326977I

a = −2.73063 + 0.39678I

b = −2.24616 − 1.33762I

−11.15920 − 0.73897I 0

u = 0.329435 + 0.722217I

a = 1.26469 + 1.24360I

b = −2.06959 + 0.45452I

1.34347 + 5.13610I −0.89905 − 6.52878I

u = 0.329435 − 0.722217I

a = 1.26469 − 1.24360I

b = −2.06959 − 0.45452I

1.34347 − 5.13610I −0.89905 + 6.52878I

u = −1.153440 + 0.356078I

a = −2.72091 − 0.41587I

b = −2.27381 + 1.22883I

−9.68798 + 9.41535I 0

u = −1.153440 − 0.356078I

a = −2.72091 + 0.41587I

b = −2.27381 − 1.22883I

−9.68798 − 9.41535I 0

u = −0.337945 + 0.711241I

a = −0.514362 + 0.535580I

b = 0.117785 + 0.912749I

1.68112 − 2.28331I 2.01200 + 1.73250I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.337945 − 0.711241I

a = −0.514362 − 0.535580I

b = 0.117785 − 0.912749I

1.68112 + 2.28331I 2.01200 − 1.73250I

u = 0.531699 + 0.571261I

a = −1.31269 + 1.58049I

b = −0.189489 − 0.498823I

1.71359 + 1.58676I −0.51367 + 2.12597I

u = 0.531699 − 0.571261I

a = −1.31269 − 1.58049I

b = −0.189489 + 0.498823I

1.71359 − 1.58676I −0.51367 − 2.12597I

u = −1.074920 + 0.589470I

a = −0.231426 + 1.076660I

b = 0.305449 + 1.020630I

−1.06964 + 3.01381I 0

u = −1.074920 − 0.589470I

a = −0.231426 − 1.076660I

b = 0.305449 − 1.020630I

−1.06964 − 3.01381I 0

u = −1.089820 + 0.571745I

a = 0.566381 − 0.717391I

b = 0.140524 − 0.866907I

0.42992 + 6.63920I 0

u = −1.089820 − 0.571745I

a = 0.566381 + 0.717391I

b = 0.140524 + 0.866907I

0.42992 − 6.63920I 0

u = 1.111230 + 0.545507I

a = 2.45891 − 1.62700I

b = 3.32507 + 1.26226I

−1.45622 − 4.63554I 0

u = 1.111230 − 0.545507I

a = 2.45891 + 1.62700I

b = 3.32507 − 1.26226I

−1.45622 + 4.63554I 0

u = 0.323938 + 0.689603I

a = −1.58714 − 0.95579I

b = 1.89255 − 0.55461I

0.818092 − 0.124046I −3.14780 − 0.83223I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.323938 − 0.689603I

a = −1.58714 + 0.95579I

b = 1.89255 + 0.55461I

0.818092 + 0.124046I −3.14780 + 0.83223I

u = 1.132130 + 0.504504I

a = 1.68573 − 1.49625I

b = 2.18204 + 0.67494I

−5.70491 − 3.44197I 0

u = 1.132130 − 0.504504I

a = 1.68573 + 1.49625I

b = 2.18204 − 0.67494I

−5.70491 + 3.44197I 0

u = −1.119960 + 0.532893I

a = −1.45764 + 0.36603I

b = −1.02362 + 0.98782I

−4.02319 + 3.95622I 0

u = −1.119960 − 0.532893I

a = −1.45764 − 0.36603I

b = −1.02362 − 0.98782I

−4.02319 − 3.95622I 0

u = −1.111910 + 0.553776I

a = 1.142580 − 0.571408I

b = 0.680128 − 1.006950I

−0.57041 + 7.12600I 0

u = −1.111910 − 0.553776I

a = 1.142580 + 0.571408I

b = 0.680128 + 1.006950I

−0.57041 − 7.12600I 0

u = 0.203285 + 0.729617I

a = 0.726731 + 0.322337I

b = −1.81310 − 0.11441I

−7.16219 + 2.64076I −7.80104 − 2.59513I

u = 0.203285 − 0.729617I

a = 0.726731 − 0.322337I

b = −1.81310 + 0.11441I

−7.16219 − 2.64076I −7.80104 + 2.59513I

u = 1.142870 + 0.494166I

a = −1.51219 + 1.59682I

b = −2.05783 − 0.43237I

−8.75415 + 1.36519I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.142870 − 0.494166I

a = −1.51219 − 1.59682I

b = −2.05783 + 0.43237I

−8.75415 − 1.36519I 0

u = 1.116840 + 0.555196I

a = −2.40203 + 1.83735I

b = −3.52952 − 0.89285I

−0.94884 − 10.00770I 0

u = 1.116840 − 0.555196I

a = −2.40203 − 1.83735I

b = −3.52952 + 0.89285I

−0.94884 + 10.00770I 0

u = −1.124970 + 0.555762I

a = −1.31913 + 0.71542I

b = −0.75747 + 1.20075I

−3.08943 + 11.54780I 0

u = −1.124970 − 0.555762I

a = −1.31913 − 0.71542I

b = −0.75747 − 1.20075I

−3.08943 − 11.54780I 0

u = 1.143390 + 0.517843I

a = −1.79911 + 1.70410I

b = −2.47710 − 0.50435I

−9.86641 − 7.31652I 0

u = 1.143390 − 0.517843I

a = −1.79911 − 1.70410I

b = −2.47710 + 0.50435I

−9.86641 + 7.31652I 0

u = −0.271121 + 0.683887I

a = 0.479920 − 0.674630I

b = −0.416798 − 0.951510I

−1.60447 + 0.71899I −4.24680 − 0.96822I

u = −0.271121 − 0.683887I

a = 0.479920 + 0.674630I

b = −0.416798 + 0.951510I

−1.60447 − 0.71899I −4.24680 + 0.96822I

u = 1.131700 + 0.568256I

a = −2.25505 + 1.97886I

b = −3.48207 − 0.39438I

−3.35699 − 12.82570I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.131700 − 0.568256I

a = −2.25505 − 1.97886I

b = −3.48207 + 0.39438I

−3.35699 + 12.82570I 0

u = 1.137910 + 0.560409I

a = 2.19776 − 1.94535I

b = 3.29821 + 0.41025I

−8.30040 − 9.55743I 0

u = 1.137910 − 0.560409I

a = 2.19776 + 1.94535I

b = 3.29821 − 0.41025I

−8.30040 + 9.55743I 0

u = 1.135060 + 0.572499I

a = 2.24277 − 2.00284I

b = 3.48187 + 0.30110I

−5.9309 − 18.0955I 0

u = 1.135060 − 0.572499I

a = 2.24277 + 2.00284I

b = 3.48187 − 0.30110I

−5.9309 + 18.0955I 0

u = 0.145735 + 0.712891I

a = 0.674421 + 0.018185I

b = −1.63547 − 0.32069I

−5.91594 − 5.85172I −6.29729 + 4.24575I

u = 0.145735 − 0.712891I

a = 0.674421 − 0.018185I

b = −1.63547 + 0.32069I

−5.91594 + 5.85172I −6.29729 − 4.24575I

u = 0.176087 + 0.688838I

a = −0.843367 − 0.085955I

b = 1.59406 + 0.15723I

−3.01456 − 1.05590I −3.38153 + 0.61296I

u = 0.176087 − 0.688838I

a = −0.843367 + 0.085955I

b = 1.59406 − 0.15723I

−3.01456 + 1.05590I −3.38153 − 0.61296I

u = −0.524300 + 0.363728I

a = 0.120376 + 1.403430I

b = 0.704675 + 0.874117I

−0.46580 − 1.46675I −2.13692 + 1.59125I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.524300 − 0.363728I

a = 0.120376 − 1.403430I

b = 0.704675 − 0.874117I

−0.46580 + 1.46675I −2.13692 − 1.59125I

u = −0.127753 + 0.355275I

a = −0.80595 + 1.22969I

b = 0.539578 + 0.492331I

−0.33354 − 1.50737I −2.96396 + 4.38386I

u = −0.127753 − 0.355275I

a = −0.80595 − 1.22969I

b = 0.539578 − 0.492331I

−0.33354 + 1.50737I −2.96396 − 4.38386I

II. I

h−u

a+b, −u

a−u

a+u

a−u

+au−u

+1, u

−u

−2u

+u+1i

(i) Arc colorings



























−u

+ u





−u

+ u





− u

+ u





− u





a − u

a + au





a − u

− u

+ u

a − u

+ au + u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −3u

a + u

a + 4u

− 2u

a + u

− 4au − 3u

− 4u − 3

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

+ u + 1)

, c

− u

+ 2u

− u + 1)

+ u

− u

− 2u

+ u + 1)

, c

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

, c

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

, c

+ y

+ 5y

+ 6y

+ 3y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.002190 + 0.295542I

a = 0.578212 + 1.125030I

b = −0.136196 + 1.374220I

−1.89061 + 1.10558I −7.01188 − 1.87706I

u = 1.002190 + 0.295542I

a = −1.263410 − 0.061767I

b = −1.122010 − 0.805060I

−1.89061 − 2.95419I −3.50232 + 4.35344I

u = 1.002190 − 0.295542I

a = 0.578212 − 1.125030I

b = −0.136196 − 1.374220I

−1.89061 − 1.10558I −7.01188 + 1.87706I

u = 1.002190 − 0.295542I

a = −1.263410 + 0.061767I

b = −1.122010 + 0.805060I

−1.89061 + 2.95419I −3.50232 − 4.35344I

u = −0.428243 + 0.664531I

a = 0.224551 + 0.930349I

b = 0.471538 − 0.368031I

1.89061 + 1.10558I 1.81693 − 2.49433I

u = −0.428243 + 0.664531I

a = 0.693431 − 0.659641I

b = −0.554493 − 0.224349I

1.89061 − 2.95419I −0.06995 + 4.17815I

u = −0.428243 − 0.664531I

a = 0.224551 − 0.930349I

b = 0.471538 + 0.368031I

1.89061 − 1.10558I 1.81693 + 2.49433I

u = −0.428243 − 0.664531I

a = 0.693431 + 0.659641I

b = −0.554493 + 0.224349I

1.89061 + 2.95419I −0.06995 − 4.17815I

u = −1.073950 + 0.558752I

a = −0.036219 + 0.825237I

b = 0.959936 + 0.737627I

3.66314I −1.09315 − 2.75648I

u = −1.073950 + 0.558752I

a = −0.696567 − 0.443985I

b = −1.118770 + 0.462515I

7.72290I −4.13964 − 8.90605I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.073950 − 0.558752I

a = −0.036219 − 0.825237I

b = 0.959936 − 0.737627I

− 3.66314I −1.09315 + 2.75648I

u = −1.073950 − 0.558752I

a = −0.696567 + 0.443985I

b = −1.118770 − 0.462515I

− 7.72290I −4.13964 + 8.90605I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

123

+ 61u

122

+ ··· − 6u − 1)

((u

+ u + 1)

)(u

123

+ 7u

122

+ ··· + 8u + 1)

((u

− u + 1)

)(u

123

− 7u

122

+ ··· − 128330u + 93361)

, c

123

− u

122

+ ··· + 4096u + 4096)

((u

− u + 1)

)(u

123

+ 7u

122

+ ··· + 8u + 1)

((u

− u

+ 2u

− u + 1)

)(u

123

− 3u

122

+ ··· − 10870u + 2425)

((u

+ u

− u

− 2u

+ u + 1)

)(u

123

+ 3u

122

+ ··· + 2u + 1)

((u

− u

+ 2u

− u + 1)

)(u

123

+ 13u

122

+ ··· + 429074u + 27289)

((u

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

)(u

123

+ 59u

122

+ ··· − 2u + 1)

((u

− u

+ 2u

− u + 1)

)(u

123

+ 3u

122

+ ··· + 2u + 1)

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

· (u

123

+ 9u

122

+ ··· + 4066u + 1237)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

123

+ 9y

122

+ ··· − 14y −1)

, c

((y

+ y + 1)

)(y

123

+ 61y

122

+ ··· − 6y −1)

((y

+ y + 1)

)(y

123

− 43y

122

+ ··· − 3.36523 × 10

y −8.71628 × 10

)

, c

123

− 65y

122

+ ··· + 4.19430 × 10

y −1.67772 × 10

)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

123

− 19y

122

+ ··· + 113874350y −5880625)

, c

((y

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

)(y

123

− 59y

122

+ ··· − 2y −1)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

123

+ 41y

122

+ ··· − 732678681206y −744689521)

((y

+ y

+ 5y

+ 6y

+ 3y + 1)

)(y

123

+ 13y

122

+ ··· − 14y −1)

+ y

+ 5y

+ 6y

+ 3y + 1)

· (y

123

+ 33y

122

+ ··· − 130598898y −1530169)