12n

0237

(K12n

0237

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

8,11 4,12

3 9 7 1 2 6 10 5

, c

Ideals for irreducible components

of X

par

= hu

+ u

+ ··· + b + 2u, u

+ u

+ ··· + a − 4u, u

+ 2u

+ ··· + u + 1i

= h−u

+ u

− 2u

+ b + u, a, u

− u

+ 3u

− 2u

+ 2u

− u − 1i

* 2 irreducible components of dim

= 0, with total 48 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.

= hu

+ u

+ · · · +b + 2u, u

+ u

+ · · · +a − 4u, u

+ 2u

+ · · · +u + 1i

(i) Arc colorings











−u

− u

+ ··· + 2u

+ 4u

−u

− u

+ ··· − 8u

− 2u









−u

− u

+ ··· + 2u

+ 4u

−u

− 2u

+ ··· − 2u − 1





+ 5u

+ 9u

+ 4u

− 6u

− 5u

+ 1

+ 6u

+ 13u

+ 10u

− 4u

− 8u

− u





+ u





+ 1

+ 2u





+ 4u

+ 5u

− 3u

−u

− u

+ ··· + 8u

+ 2u





+ 2u

+ u





−u

− 3u

− 2u

+ 1

−u

− 2u

− u





−u

− 4u

− 5u

+ 3u

−u

− 3u

+ u



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

− 8u

+ ··· + 15u − 9

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 13u

+ ··· + 28u + 1

, c

− 7u

+ ··· − 8u + 1

, c

+ u

+ ··· + 192u + 64

, c

− 2u

+ ··· − 55u + 17

, c

+ 2u

+ ··· + u + 1

+ 2u

+ ··· + 5u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 39y

+ ··· − 212y + 1

, c

− 13y

+ ··· − 28y + 1

, c

− 39y

+ ··· − 90112y + 4096

, c

− 38y

+ ··· − 4011y + 289

, c

+ 34y

+ ··· − 19y + 1

+ 46y

+ ··· − 19y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.884997

a = −0.685840

b = −0.554744

−8.59934 −6.83080

u = −0.860411 + 0.091340I

a = 1.60817 + 0.83486I

b = 0.281208 + 1.248210I

−1.28738 + 8.63776I −11.30852 − 5.50570I

u = −0.860411 − 0.091340I

a = 1.60817 − 0.83486I

b = 0.281208 − 1.248210I

−1.28738 − 8.63776I −11.30852 + 5.50570I

u = −0.819362 + 0.102352I

a = −1.76027 − 0.48960I

b = −0.358516 − 0.802687I

0.15821 + 2.18866I −9.63326 − 1.25581I

u = −0.819362 − 0.102352I

a = −1.76027 + 0.48960I

b = −0.358516 + 0.802687I

0.15821 − 2.18866I −9.63326 + 1.25581I

u = −0.818580

a = 1.24094

b = −0.564691

−7.20526 −12.4480

u = 0.813444 + 0.036008I

a = −0.240335 − 1.364030I

b = −0.236106 − 1.145350I

−5.56172 − 2.39562I −13.13795 + 3.14651I

u = 0.813444 − 0.036008I

a = −0.240335 + 1.364030I

b = −0.236106 + 1.145350I

−5.56172 + 2.39562I −13.13795 − 3.14651I

u = −0.360418 + 1.144850I

a = 0.461015 + 1.052370I

b = 0.396025 + 0.874829I

3.34850 + 2.08589I −6.37713 − 2.84313I

u = −0.360418 − 1.144850I

a = 0.461015 − 1.052370I

b = 0.396025 − 0.874829I

3.34850 − 2.08589I −6.37713 + 2.84313I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.039780 + 1.228480I

a = −0.408011 + 0.443145I

b = 0.69289 + 2.43964I

1.48060 − 0.96666I −6.26750 − 1.40491I

u = 0.039780 − 1.228480I

a = −0.408011 − 0.443145I

b = 0.69289 − 2.43964I

1.48060 + 0.96666I −6.26750 + 1.40491I

u = −0.193377 + 1.231330I

a = 0.262816 + 0.483914I

b = 0.802069 + 0.546478I

2.73948 + 2.47038I −3.06420 − 3.92417I

u = −0.193377 − 1.231330I

a = 0.262816 − 0.483914I

b = 0.802069 − 0.546478I

2.73948 − 2.47038I −3.06420 + 3.92417I

u = −0.415470 + 1.179020I

a = −0.775903 − 0.927476I

b = −0.095078 − 0.588213I

2.05152 − 4.06193I −8.19749 + 0.I

u = −0.415470 − 1.179020I

a = −0.775903 + 0.927476I

b = −0.095078 + 0.588213I

2.05152 + 4.06193I −8.19749 + 0.I

u = 0.357741 + 1.238750I

a = −0.744213 − 0.408723I

b = 0.418778 − 1.322100I

−1.85166 − 1.82090I −9.63780 + 0.I

u = 0.357741 − 1.238750I

a = −0.744213 + 0.408723I

b = 0.418778 + 1.322100I

−1.85166 + 1.82090I −9.63780 + 0.I

u = −0.079247 + 1.295310I

a = 0.637223 − 0.258877I

b = 1.01766 − 1.34640I

4.02758 + 2.15699I 0

u = −0.079247 − 1.295310I

a = 0.637223 + 0.258877I

b = 1.01766 + 1.34640I

4.02758 − 2.15699I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.365234 + 1.269190I

a = −0.284658 − 0.718402I

b = −0.34989 − 2.35592I

−3.26541 + 4.25757I 0

u = −0.365234 − 1.269190I

a = −0.284658 + 0.718402I

b = −0.34989 + 2.35592I

−3.26541 − 4.25757I 0

u = 0.517463 + 0.417209I

a = 1.47848 − 1.77950I

b = 0.187293 − 1.152780I

4.73868 − 4.97358I −7.62188 + 6.30595I

u = 0.517463 − 0.417209I

a = 1.47848 + 1.77950I

b = 0.187293 + 1.152780I

4.73868 + 4.97358I −7.62188 − 6.30595I

u = 0.443990 + 0.494284I

a = −1.67760 + 1.53589I

b = −0.210344 + 0.860490I

5.02884 + 1.46246I −6.53686 + 0.89586I

u = 0.443990 − 0.494284I

a = −1.67760 − 1.53589I

b = −0.210344 − 0.860490I

5.02884 − 1.46246I −6.53686 − 0.89586I

u = 0.418536 + 1.277910I

a = 0.134196 − 0.433061I

b = 0.636951 − 0.103857I

−4.63050 − 4.66445I 0

u = 0.418536 − 1.277910I

a = 0.134196 + 0.433061I

b = 0.636951 + 0.103857I

−4.63050 + 4.66445I 0

u = 0.361948 + 1.295330I

a = 0.843712 + 0.183840I

b = 0.34096 + 1.49506I

−1.40855 − 6.62685I 0

u = 0.361948 − 1.295330I

a = 0.843712 − 0.183840I

b = 0.34096 − 1.49506I

−1.40855 + 6.62685I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.361210 + 1.333990I

a = 0.133728 + 1.145250I

b = 1.68733 + 2.67654I

4.66389 + 6.44264I 0

u = −0.361210 − 1.333990I

a = 0.133728 − 1.145250I

b = 1.68733 − 2.67654I

4.66389 − 6.44264I 0

u = 0.108456 + 1.380140I

a = 0.156921 − 1.186400I

b = 1.07791 − 4.11722I

10.88470 − 0.27094I 0

u = 0.108456 − 1.380140I

a = 0.156921 + 1.186400I

b = 1.07791 + 4.11722I

10.88470 + 0.27094I 0

u = 0.146369 + 1.377200I

a = 0.141022 + 1.192190I

b = −0.84503 + 4.22749I

10.39390 − 7.18776I 0

u = 0.146369 − 1.377200I

a = 0.141022 − 1.192190I

b = −0.84503 − 4.22749I

10.39390 + 7.18776I 0

u = −0.385158 + 1.335160I

a = 0.110632 − 1.155620I

b = −1.67195 − 2.97617I

3.18564 + 13.11100I 0

u = −0.385158 − 1.335160I

a = 0.110632 + 1.155620I

b = −1.67195 + 2.97617I

3.18564 − 13.11100I 0

u = −0.492418

a = −0.979682

b = −0.240678

−0.983238 −9.79060

u = −0.283222 + 0.253637I

a = −1.15749 + 1.43241I

b = −0.099702 + 0.442777I

−0.614323 + 0.919516I −9.08610 − 7.37537I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.283222 − 0.253637I

a = −1.15749 − 1.43241I

b = −0.099702 − 0.442777I

−0.614323 − 0.919516I −9.08610 + 7.37537I

u = 0.256764

a = 1.58568

b = −0.984824

−2.02811 1.75710

II. I

= h−u

+ u

− 2u

+ b + u, a, u

− u

+ 3u

− 2u

+ 2u

− u − 1i

(i) Arc colorings











− u

+ 2u

− u









− u

+ 2u

− u









+ u





+ 1

+ 2u





+ 1

− u

+ 4u

− u





+ 2u

+ u





−u

− 2u

− u

−u

+ u

− 2u

+ u

− u − 1





−u

− 1

−u

− 2u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −5u

+ 6u

− 11u

+ 6u − 17

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

, c

− u

− 3u

+ 2u

+ u − 1

+ u

+ 3u

+ 2u

+ u − 1

+ u

− 3u

− 2u

+ 2u

− u − 1

, c

− u

+ 3u

− 2u

+ 2u

− u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

− 7y

+ 17y

− 16y

+ 6y

− 5y + 1

, c

+ 5y

+ 9y

+ 4y

− 6y

− 5y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.873214

a = 0

b = 0.567375

−9.30502 −19.0600

u = −0.138835 + 1.234450I

a = 0

b = −1.35607 + 0.92119I

1.31531 + 1.97241I −8.22189 − 4.83849I

u = −0.138835 − 1.234450I

a = 0

b = −1.35607 − 0.92119I

1.31531 − 1.97241I −8.22189 + 4.83849I

u = 0.408802 + 1.276380I

a = 0

b = −0.354716 − 0.801205I

−5.34051 − 4.59213I −15.2853 + 2.7994I

u = 0.408802 − 1.276380I

a = 0

b = −0.354716 + 0.801205I

−5.34051 + 4.59213I −15.2853 − 2.7994I

u = −0.413150

a = 0

b = 0.854195

−2.38379 −21.9250

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

+ 13u

+ ··· + 28u + 1)

((u − 1)

)(u

− 7u

+ ··· − 8u + 1)

, c

+ u

+ ··· + 192u + 64)

((u + 1)

)(u

− 7u

+ ··· − 8u + 1)

, c

− u

− 3u

+ 2u

+ u − 1)(u

− 2u

+ ··· − 55u + 17)

+ u

+ 3u

+ 2u

+ u − 1)(u

+ 2u

+ ··· + u + 1)

− u

− 3u

+ 2u

+ u − 1)(u

+ 2u

+ ··· + 5u + 1)

+ u

− 3u

− 2u

+ 2u

− u − 1)(u

− 2u

+ ··· − 55u + 17)

, c

− u

+ 3u

− 2u

+ 2u

− u − 1)(u

+ 2u

+ ··· + u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y −1)

)(y

+ 39y

+ ··· − 212y + 1)

, c

((y −1)

)(y

− 13y

+ ··· − 28y + 1)

, c

− 39y

+ ··· − 90112y + 4096)

, c

− 7y

+ 17y

− 16y

+ 6y

− 5y + 1)

· (y

− 38y

+ ··· − 4011y + 289)

, c

+ 5y

+ ··· − 5y + 1)(y

+ 34y

+ ··· − 19y + 1)

− 7y

+ ··· − 5y + 1)(y

+ 46y

+ ··· − 19y + 1)