12a

0854

(K12a

0854

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,12

1,3

5 2 11 8 9 10 4

, c

Ideals for irreducible components

of X

par

= h−4.18772 × 10

+ 6.44102 × 10

+ ··· + 7.93709 × 10

b − 6.29281 × 10

− 2.93073 × 10

+ 4.50916 × 10

+ ··· + 5.55596 × 10

a − 5.64900 × 10

, u

+ u

+ ··· + 3u + 1i

* 1 irreducible components of dim

= 0, with total 66 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.

= h−4.19×10

+6.44×10

+· · ·+7.94×10

b−6.29×10

, −2.93×

+4.51×10

+· · ·+5.56×10

a−5.65×10

, u

+· · ·+3u+1i

(i) Arc colorings











−u





−u

+ u





0.00527494u

− 0.811590u

+ ··· + 3.23371u + 1.01675

0.00527615u

− 0.811510u

+ ··· − 3.18309u + 0.0000792836





−0.00442903u

− 0.736691u

+ ··· + 2.32738u + 1.74996

−0.00442982u

− 0.736731u

+ ··· − 3.25012u − 0.0000393662





−0.00273721u

− 0.833252u

+ ··· + 1.44957u − 0.716626

−0.00273716u

− 0.833212u

+ ··· − 0.116545u + 0.0000404686









+ 1





−u

− 3u

+ 1

+ 4u

+ 2u





+ 2u

+ u





−0.000766897u

− 0.0917424u

+ ··· + 2.32749u + 1.75000

−0.000767003u

− 0.0917456u

+ ··· − 3.25001u − 3.08525 × 10

−6



(ii) Obstruction class = −1

(iii) Cusp Shapes = −

17667926048719462539416

5555960082374174168269

−

1888758008650562826900

793708583196310595467

+ ··· +

30639294781679213832508

5555960082374174168269

u +

25448149131766158381870

5555960082374174168269

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 11u

+ ··· − u + 1

, c

+ u

+ ··· + 11u + 1

− u

+ ··· + 116u − 8

+ u

+ ··· − 39u + 19

, c

− u

+ ··· − 3u + 1

− u

+ ··· − 1149u + 1069

+ 3u

+ ··· + u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 3y

+ ··· − 11y + 1

, c

− 43y

+ ··· − 11y + 1

+ 53y

+ ··· − 18384y + 64

+ 69y

+ ··· + 17213y + 361

, c

+ 85y

+ ··· − 3y + 1

− 3y

+ ··· + 10590597y + 1142761

− 11y

+ ··· − 3y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.320550 + 0.945885I

a = −1.063260 − 0.335944I

b = −0.685686 + 0.247428I

0.80470 + 7.26585I 0

u = −0.320550 − 0.945885I

a = −1.063260 + 0.335944I

b = −0.685686 − 0.247428I

0.80470 − 7.26585I 0

u = −0.259011 + 0.962168I

a = −2.13062 + 1.40357I

b = −1.20371 + 0.85170I

5.56803 + 4.96269I 0

u = −0.259011 − 0.962168I

a = −2.13062 − 1.40357I

b = −1.20371 − 0.85170I

5.56803 − 4.96269I 0

u = −0.191816 + 0.964958I

a = −1.81489 + 1.32945I

b = −0.589613 + 0.207069I

6.29804 + 1.24184I 0

u = −0.191816 − 0.964958I

a = −1.81489 − 1.32945I

b = −0.589613 − 0.207069I

6.29804 − 1.24184I 0

u = 0.238535 + 0.917340I

a = −3.28193 − 3.26906I

b = −2.96619 − 1.22505I

3.70547 − 2.54918I 0

u = 0.238535 − 0.917340I

a = −3.28193 + 3.26906I

b = −2.96619 + 1.22505I

3.70547 + 2.54918I 0

u = −0.365061 + 0.991459I

a = 2.00582 − 1.50902I

b = 1.44867 − 0.39349I

4.89146 + 13.26630I 0

u = −0.365061 − 0.991459I

a = 2.00582 + 1.50902I

b = 1.44867 + 0.39349I

4.89146 − 13.26630I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.303217 + 0.885615I

a = 0.315243 − 0.014355I

b = 0.100769 − 0.435003I

1.36354 − 2.78002I 0

u = 0.303217 − 0.885615I

a = 0.315243 + 0.014355I

b = 0.100769 + 0.435003I

1.36354 + 2.78002I 0

u = −0.063187 + 0.925648I

a = 0.363461 + 0.619325I

b = 0.744300 − 0.157815I

3.48184 − 1.42801I 0

u = −0.063187 − 0.925648I

a = 0.363461 − 0.619325I

b = 0.744300 + 0.157815I

3.48184 + 1.42801I 0

u = 0.363535 + 1.037990I

a = 1.60954 + 0.96579I

b = 1.224800 − 0.068819I

3.57327 − 5.06511I 0

u = 0.363535 − 1.037990I

a = 1.60954 − 0.96579I

b = 1.224800 + 0.068819I

3.57327 + 5.06511I 0

u = 0.167951 + 0.857359I

a = 0.465621 + 1.190710I

b = 1.40004 + 0.77822I

2.98373 − 1.62353I 4.86404 + 6.61880I

u = 0.167951 − 0.857359I

a = 0.465621 − 1.190710I

b = 1.40004 − 0.77822I

2.98373 + 1.62353I 4.86404 − 6.61880I

u = 0.457424 + 0.731064I

a = 0.725928 + 0.706575I

b = −0.201103 − 0.033272I

1.12406 − 3.70601I 0. + 11.51127I

u = 0.457424 − 0.731064I

a = 0.725928 − 0.706575I

b = −0.201103 + 0.033272I

1.12406 + 3.70601I 0. − 11.51127I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.061425 + 1.191140I

a = 1.84871 − 0.38837I

b = 1.41998 + 0.05717I

8.29302 − 4.76690I 0

u = −0.061425 − 1.191140I

a = 1.84871 + 0.38837I

b = 1.41998 − 0.05717I

8.29302 + 4.76690I 0

u = −0.458535 + 0.561466I

a = 0.255118 − 0.554018I

b = −0.941274 + 0.566973I

2.41285 − 6.45141I −0.54002 + 2.68736I

u = −0.458535 − 0.561466I

a = 0.255118 + 0.554018I

b = −0.941274 − 0.566973I

2.41285 + 6.45141I −0.54002 − 2.68736I

u = −0.290297 + 0.626646I

a = 1.205330 − 0.394635I

b = 0.339995 − 0.557211I

−1.00030 − 1.44920I −4.20313 + 0.51290I

u = −0.290297 − 0.626646I

a = 1.205330 + 0.394635I

b = 0.339995 + 0.557211I

−1.00030 + 1.44920I −4.20313 − 0.51290I

u = 0.583780 + 0.292413I

a = 0.586657 + 0.798318I

b = −0.733275 − 0.248558I

−0.52146 − 1.81812I −11.1036 + 9.5392I

u = 0.583780 − 0.292413I

a = 0.586657 − 0.798318I

b = −0.733275 + 0.248558I

−0.52146 + 1.81812I −11.1036 − 9.5392I

u = 0.651823

a = −0.176116

b = −0.723296

−1.07816 −15.1890

u = −0.600823 + 0.187862I

a = 0.18260 − 1.64994I

b = −0.988132 + 0.036198I

1.26055 + 9.99441I −3.17960 − 8.12625I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.600823 − 0.187862I

a = 0.18260 + 1.64994I

b = −0.988132 − 0.036198I

1.26055 − 9.99441I −3.17960 + 8.12625I

u = −0.533895 + 0.131590I

a = −0.533306 + 1.262460I

b = −0.136821 + 0.638790I

−2.49763 + 4.35833I −7.38425 − 7.01489I

u = −0.533895 − 0.131590I

a = −0.533306 − 1.262460I

b = −0.136821 − 0.638790I

−2.49763 − 4.35833I −7.38425 + 7.01489I

u = 0.513633

a = 0.361156

b = −0.284384

−1.34771 −8.70160

u = −0.431584 + 0.169963I

a = 0.27177 + 2.35884I

b = 0.813624 + 0.264792I

2.09817 + 2.58100I −0.10269 − 8.35821I

u = −0.431584 − 0.169963I

a = 0.27177 − 2.35884I

b = 0.813624 − 0.264792I

2.09817 − 2.58100I −0.10269 + 8.35821I

u = 0.258905 + 0.380359I

a = 0.834851 + 0.121731I

b = −0.074634 − 0.484044I

−0.402527 − 1.133020I −5.71641 + 5.32128I

u = 0.258905 − 0.380359I

a = 0.834851 − 0.121731I

b = −0.074634 + 0.484044I

−0.402527 + 1.133020I −5.71641 − 5.32128I

u = 0.410014 + 0.063112I

a = 0.31651 − 4.71230I

b = 0.659200 + 0.694375I

0.701377 − 0.322381I 4.5634 − 19.7316I

u = 0.410014 − 0.063112I

a = 0.31651 + 4.71230I

b = 0.659200 − 0.694375I

0.701377 + 0.322381I 4.5634 + 19.7316I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.04843 + 1.59433I

a = 1.042930 + 0.100093I

b = 1.64649 + 0.53314I

8.81067 − 5.43936I 0

u = 0.04843 − 1.59433I

a = 1.042930 − 0.100093I

b = 1.64649 − 0.53314I

8.81067 + 5.43936I 0

u = −0.261393 + 0.254743I

a = 0.680829 + 1.108350I

b = 1.102630 − 0.201893I

2.68024 − 0.40653I 3.06802 − 3.24326I

u = −0.261393 − 0.254743I

a = 0.680829 − 1.108350I

b = 1.102630 + 0.201893I

2.68024 + 0.40653I 3.06802 + 3.24326I

u = −0.02226 + 1.64012I

a = 0.931045 + 0.007675I

b = 2.06715 − 0.75388I

6.95676 − 0.72964I 0

u = −0.02226 − 1.64012I

a = 0.931045 − 0.007675I

b = 2.06715 + 0.75388I

6.95676 + 0.72964I 0

u = 0.04369 + 1.69093I

a = −0.088591 + 0.936388I

b = 0.56172 + 2.91859I

12.08540 − 2.44069I 0

u = 0.04369 − 1.69093I

a = −0.088591 − 0.936388I

b = 0.56172 − 2.91859I

12.08540 + 2.44069I 0

u = 0.07604 + 1.68991I

a = 0.257142 + 0.020404I

b = 0.672101 − 0.399751I

10.45740 − 4.23214I 0

u = 0.07604 − 1.68991I

a = 0.257142 − 0.020404I

b = 0.672101 + 0.399751I

10.45740 + 4.23214I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.06014 + 1.69901I

a = −3.27791 − 2.08492I

b = −8.79298 − 5.45875I

12.99110 − 3.71015I 0

u = 0.06014 − 1.69901I

a = −3.27791 + 2.08492I

b = −8.79298 + 5.45875I

12.99110 + 3.71015I 0

u = −0.02854 + 1.70099I

a = −0.082212 + 0.726413I

b = 0.298235 + 1.131330I

12.84170 − 0.97443I 0

u = −0.02854 − 1.70099I

a = −0.082212 − 0.726413I

b = 0.298235 − 1.131330I

12.84170 + 0.97443I 0

u = −0.08226 + 1.70288I

a = −0.697707 − 0.726127I

b = −1.83993 − 1.06056I

10.15510 + 8.84894I 0

u = −0.08226 − 1.70288I

a = −0.697707 + 0.726127I

b = −1.83993 + 1.06056I

10.15510 − 8.84894I 0

u = −0.06632 + 1.70870I

a = −2.25962 + 0.63483I

b = −5.34135 + 2.11063I

15.0454 + 6.2521I 0

u = −0.06632 − 1.70870I

a = −2.25962 − 0.63483I

b = −5.34135 − 2.11063I

15.0454 − 6.2521I 0

u = −0.05073 + 1.70963I

a = −2.20674 + 0.93195I

b = −4.97480 + 1.99997I

15.8171 + 2.2173I 0

u = −0.05073 − 1.70963I

a = −2.20674 − 0.93195I

b = −4.97480 − 1.99997I

15.8171 − 2.2173I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.09749 + 1.71480I

a = 2.26743 − 0.89318I

b = 5.56296 − 2.43902I

14.4372 + 15.1298I 0

u = −0.09749 − 1.71480I

a = 2.26743 + 0.89318I

b = 5.56296 + 2.43902I

14.4372 − 15.1298I 0

u = 0.09880 + 1.72557I

a = 1.89713 + 0.66588I

b = 4.74145 + 1.60013I

13.3360 − 6.9684I 0

u = 0.09880 − 1.72557I

a = 1.89713 − 0.66588I

b = 4.74145 − 1.60013I

13.3360 + 6.9684I 0

u = −0.00801 + 1.75235I

a = 2.28061 − 0.30206I

b = 5.66923 − 0.58870I

18.8528 − 4.5341I 0

u = −0.00801 − 1.75235I

a = 2.28061 + 0.30206I

b = 5.66923 + 0.58870I

18.8528 + 4.5341I 0

II. u-Polynomials

Crossings u-Polynomials at each crossing

− 11u

+ ··· − u + 1

, c

+ u

+ ··· + 11u + 1

− u

+ ··· + 116u − 8

+ u

+ ··· − 39u + 19

, c

− u

+ ··· − 3u + 1

− u

+ ··· − 1149u + 1069

+ 3u

+ ··· + u + 1

III. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 3y

+ ··· − 11y + 1

, c

− 43y

+ ··· − 11y + 1

+ 53y

+ ··· − 18384y + 64

+ 69y

+ ··· + 17213y + 361

, c

+ 85y

+ ··· − 3y + 1

− 3y

+ ··· + 10590597y + 1142761

− 11y

+ ··· − 3y + 1