12n

0683

(K12n

0683

)

A knot diagram

Linearized knot diagam

4 5 12 9 11 4 12 1 2 5 6 8

Solving Sequence

1,4 2,8

9 5 10 12 3 7 6 11

, c

Ideals for irreducible components

of X

par

= h−2.19867 × 10

203

+ 5.65768 × 10

203

+ ··· + 1.13098 × 10

204

b − 3.04242 × 10

203

1.01630 × 10

202

− 2.54589 × 10

202

+ ··· + 4.34992 × 10

202

a − 1.92664 × 10

204

, u

− 2u

+ ··· + 99u + 1i

= h−190u

+ 1765u

+ ··· + 334b + 209, −1291u

+ 11918u

+ ··· + 167a − 2972,

− 9u

+ 40u

− 112u

+ 212u

− 270u

+ 213u

− 70u

− 43u

+ 56u

− 13u

− 10u

+ 3u + 1i

* 2 irreducible components of dim

= 0, with total 70 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−2.20 × 10

203

+ 5.66 × 10

203

+ · · · + 1.13 × 10

204

b − 3.04 ×

203

, 1.02 × 10

202

− 2.55 × 10

202

+ · · · + 4.35 × 10

202

a − 1.93 ×

204

, u

− 2u

+ · · · + 99u + 1i

(i) Arc colorings















−0.233636u

+ 0.585272u

+ ··· + 376.156u + 44.2914

0.194404u

− 0.500246u

+ ··· − 3.13746u + 0.269007





−0.0392325u

+ 0.0850261u

+ ··· + 373.019u + 44.5604

0.194404u

− 0.500246u

+ ··· − 3.13746u + 0.269007





−0.709204u

+ 1.81312u

+ ··· + 1.23457u − 20.2316

0.113804u

− 0.292360u

+ ··· + 60.6616u + 0.512414





−0.206310u

+ 0.511643u

+ ··· + 375.546u + 44.2848

0.152217u

− 0.398947u

+ ··· − 12.1241u + 0.176546





−0.211474u

+ 0.400072u

+ ··· − 355.701u + 11.0408

−0.300940u

+ 0.738560u

+ ··· − 111.054u − 1.10820





1.16949u

− 2.32458u

+ ··· + 1535.29u + 14.9071

−0.275037u

+ 0.741382u

+ ··· + 63.4359u + 0.800985





1.71051u

− 3.73781u

+ ··· + 1743.01u + 54.3756

−0.170202u

+ 0.417387u

+ ··· + 3.50097u + 0.427858





1.71051u

− 3.73781u

+ ··· + 1743.01u + 54.3756

−0.0441047u

+ 0.107941u

+ ··· + 33.1523u + 0.744645





−0.0330544u

− 0.0970298u

+ ··· − 433.886u + 25.2387

−0.0307323u

+ 0.0397139u

+ ··· − 103.215u − 0.950993



(ii) Obstruction class = −1

(iii) Cusp Shapes = 1.49472u

− 3.47198u

+ ··· + 455.723u + 19.2896

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 2u

+ ··· + 99u − 1

+ u

+ ··· − 217u + 31

+ 2u

+ ··· − 3u − 1

+ 2u

+ ··· − 23u − 19

, c

− u

+ ··· + 2u − 1

+ 18u

+ ··· − 3u − 1

, c

+ u

+ ··· − 27u − 9

− 2u

+ ··· − 15u − 19

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 8y

+ ··· + 6183y −1

+ 45y

+ ··· − 77345y −961

− 36y

+ ··· + 175y −1

− 20y

+ ··· + 7483y −361

, c

− 43y

+ ··· − 26y −1

+ 36y

+ ··· − 413y −1

, c

− 47y

+ ··· − 81y −81

− 40y

+ ··· + 29903y −361

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.982069

a = 0.271580

b = −1.32023

5.72850 18.2470

u = 0.787849 + 0.663146I

a = 0.111327 − 0.249352I

b = −0.079251 − 0.513820I

−1.39291 − 1.49817I 0

u = 0.787849 − 0.663146I

a = 0.111327 + 0.249352I

b = −0.079251 + 0.513820I

−1.39291 + 1.49817I 0

u = 0.029607 + 1.080220I

a = −1.50186 + 0.62457I

b = 1.091320 − 0.039504I

1.80896 − 0.59182I 0

u = 0.029607 − 1.080220I

a = −1.50186 − 0.62457I

b = 1.091320 + 0.039504I

1.80896 + 0.59182I 0

u = 0.882972

a = −1.33547

b = −1.08958

8.40411 7.98810

u = 0.933561 + 0.625124I

a = 0.853667 − 0.081695I

b = −0.474635 − 0.684470I

−0.25852 − 1.69884I 0

u = 0.933561 − 0.625124I

a = 0.853667 + 0.081695I

b = −0.474635 + 0.684470I

−0.25852 + 1.69884I 0

u = 0.403090 + 0.774689I

a = −0.592456 − 0.151652I

b = 0.221654 + 0.904852I

1.91455 − 2.21031I 13.12081 + 2.10550I

u = 0.403090 − 0.774689I

a = −0.592456 + 0.151652I

b = 0.221654 − 0.904852I

1.91455 + 2.21031I 13.12081 − 2.10550I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.133930 + 0.358505I

a = 0.0031594 + 0.0941549I

b = 0.016164 − 0.679191I

−1.85634 − 1.60964I 0

u = 1.133930 − 0.358505I

a = 0.0031594 − 0.0941549I

b = 0.016164 + 0.679191I

−1.85634 + 1.60964I 0

u = −1.183600 + 0.191183I

a = 0.457183 + 0.050936I

b = 0.192168 + 0.919003I

−3.95643 − 2.45863I 0

u = −1.183600 − 0.191183I

a = 0.457183 − 0.050936I

b = 0.192168 − 0.919003I

−3.95643 + 2.45863I 0

u = −1.186880 + 0.423414I

a = −0.286902 + 0.017571I

b = −0.171028 − 1.023880I

−8.10408 + 3.62915I 0

u = −1.186880 − 0.423414I

a = −0.286902 − 0.017571I

b = −0.171028 + 1.023880I

−8.10408 − 3.62915I 0

u = −1.110700 + 0.610435I

a = 0.153762 − 0.058890I

b = 0.164353 + 1.087850I

−3.81501 + 9.61156I 0

u = −1.110700 − 0.610435I

a = 0.153762 + 0.058890I

b = 0.164353 − 1.087850I

−3.81501 − 9.61156I 0

u = −0.294530 + 0.662947I

a = 1.31292 − 1.50192I

b = −1.209010 − 0.204626I

6.60552 + 1.19209I 14.3056 − 1.0519I

u = −0.294530 − 0.662947I

a = 1.31292 + 1.50192I

b = −1.209010 + 0.204626I

6.60552 − 1.19209I 14.3056 + 1.0519I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.721188 + 0.010661I

a = −1.56524 + 0.58708I

b = 0.655013 + 0.306013I

0.254039 + 0.524135I 8.44441 − 3.12759I

u = 0.721188 − 0.010661I

a = −1.56524 − 0.58708I

b = 0.655013 − 0.306013I

0.254039 − 0.524135I 8.44441 + 3.12759I

u = 0.443363 + 1.220500I

a = 0.471429 + 0.461395I

b = −0.130344 + 0.192510I

0.83147 − 4.60750I 0

u = 0.443363 − 1.220500I

a = 0.471429 − 0.461395I

b = −0.130344 − 0.192510I

0.83147 + 4.60750I 0

u = 1.16130 + 0.85091I

a = −1.330120 − 0.083967I

b = 1.371540 − 0.229175I

2.34247 − 1.46589I 0

u = 1.16130 − 0.85091I

a = −1.330120 + 0.083967I

b = 1.371540 + 0.229175I

2.34247 + 1.46589I 0

u = 0.553554

a = 1.08209

b = −1.86480

11.0296 −7.52950

u = −0.482542 + 0.186548I

a = −3.17532 + 1.59578I

b = 1.163130 + 0.461068I

−0.97671 + 7.38058I 7.33354 − 5.78645I

u = −0.482542 − 0.186548I

a = −3.17532 − 1.59578I

b = 1.163130 − 0.461068I

−0.97671 − 7.38058I 7.33354 + 5.78645I

u = 0.76598 + 1.28507I

a = −1.58483 − 0.83064I

b = 1.260720 − 0.166493I

4.98441 − 6.28398I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.76598 − 1.28507I

a = −1.58483 + 0.83064I

b = 1.260720 + 0.166493I

4.98441 + 6.28398I 0

u = −0.481796 + 0.025652I

a = 2.48626 − 1.61462I

b = −1.162050 − 0.579686I

−5.07361 + 1.99676I 3.51787 − 1.41521I

u = −0.481796 − 0.025652I

a = 2.48626 + 1.61462I

b = −1.162050 + 0.579686I

−5.07361 − 1.99676I 3.51787 + 1.41521I

u = −1.52665

a = −0.719721

b = 1.64459

15.0211 0

u = 0.58877 + 1.42087I

a = −1.281560 − 0.148995I

b = 1.269080 − 0.517238I

5.24676 − 7.48865I 0

u = 0.58877 − 1.42087I

a = −1.281560 + 0.148995I

b = 1.269080 + 0.517238I

5.24676 + 7.48865I 0

u = −0.414150 + 0.153678I

a = −1.80595 − 1.43113I

b = 1.192780 − 0.738076I

−0.73053 + 3.35751I 5.35994 − 3.89314I

u = −0.414150 − 0.153678I

a = −1.80595 + 1.43113I

b = 1.192780 + 0.738076I

−0.73053 − 3.35751I 5.35994 + 3.89314I

u = 0.93882 + 1.32829I

a = 1.277810 + 0.317518I

b = −1.218700 + 0.340067I

1.96594 − 4.89349I 0

u = 0.93882 − 1.32829I

a = 1.277810 − 0.317518I

b = −1.218700 − 0.340067I

1.96594 + 4.89349I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.06256 + 1.30003I

a = 1.49425 + 0.25593I

b = −1.284040 + 0.299476I

2.20041 − 5.20017I 0

u = 1.06256 − 1.30003I

a = 1.49425 − 0.25593I

b = −1.284040 − 0.299476I

2.20041 + 5.20017I 0

u = −0.245067

a = −5.94703

b = −0.611130

7.03759 21.9860

u = −1.67017 + 0.65889I

a = 0.966468 − 0.185623I

b = −1.46672 − 0.42530I

1.33651 + 2.42655I 0

u = −1.67017 − 0.65889I

a = 0.966468 + 0.185623I

b = −1.46672 + 0.42530I

1.33651 − 2.42655I 0

u = 1.63108 + 0.83574I

a = −0.514592 − 0.394322I

b = 0.999285 − 0.104423I

0.85956 − 1.26664I 0

u = 1.63108 − 0.83574I

a = −0.514592 + 0.394322I

b = 0.999285 + 0.104423I

0.85956 + 1.26664I 0

u = −1.41187 + 1.18997I

a = 1.215900 − 0.316935I

b = −1.42291 − 0.49714I

1.1499 + 15.2354I 0

u = −1.41187 − 1.18997I

a = 1.215900 + 0.316935I

b = −1.42291 + 0.49714I

1.1499 − 15.2354I 0

u = −1.56697 + 1.00586I

a = −1.115510 + 0.256262I

b = 1.42807 + 0.47889I

−3.07994 + 9.01753I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.56697 − 1.00586I

a = −1.115510 − 0.256262I

b = 1.42807 − 0.47889I

−3.07994 − 9.01753I 0

u = −0.0788245

a = 15.9721

b = 1.39717

6.57350 13.9620

u = 1.29095 + 1.44646I

a = 0.894273 + 0.319702I

b = −0.999227 + 0.285270I

1.26758 − 5.50057I 0

u = 1.29095 − 1.44646I

a = 0.894273 − 0.319702I

b = −0.999227 − 0.285270I

1.26758 + 5.50057I 0

u = −0.0129360

a = 39.3944

b = 0.359528

0.705153 14.5050

u = −0.38434 + 1.96202I

a = 1.196960 − 0.374494I

b = −1.165110 + 0.090048I

3.76984 − 4.85515I 0

u = −0.38434 − 1.96202I

a = 1.196960 + 0.374494I

b = −1.165110 − 0.090048I

3.76984 + 4.85515I 0

II. I

= h−190u

+ 1765u

+ · · · + 334b + 209, −1291u

+ 11918u

· · · + 167a − 2972, u

− 9u

+ · · · + 3u + 1i

(i) Arc colorings















7.73054u

− 71.3653u

+ ··· − 2.63473u + 17.7964

0.568862u

− 5.28443u

+ ··· + 3.78443u − 0.625749





8.29940u

− 76.6497u

+ ··· + 1.14970u + 17.1707

0.568862u

− 5.28443u

+ ··· + 3.78443u − 0.625749





12.4760u

− 117.988u

+ ··· + 18.4880u + 42.8263

1.26946u

− 12.1347u

+ ··· + 5.63473u + 4.70359





9.36228u

− 85.9311u

+ ··· − 5.06886u + 19.7515

0.736527u

− 6.86826u

+ ··· + 1.86826u − 0.910180





−6.97305u

+ 64.7365u

+ ··· + 0.763473u − 17.1796

2.26946u

− 21.1347u

+ ··· − 5.36527u + 8.70359





18.1796u

− 170.590u

+ ··· + 13.0898u + 56.3024

1.97904u

− 18.7395u

+ ··· + 4.73952u + 5.97305





−2.52395u

+ 24.5120u

+ ··· − 11.5120u − 7.67365

3.33832u

− 30.9192u

+ ··· − 10.0808u + 12.5778





−2.52395u

+ 24.5120u

+ ··· − 11.5120u − 7.67365

3.10778u

− 28.5539u

+ ··· − 12.9461u + 10.7814





−17.8533u

+ 165.677u

+ ··· + 9.82335u − 48.3114

−7.58683u

+ 69.7934u

+ ··· + 10.7066u − 22.2545



(ii) Obstruction class = 1

(iii) Cusp Shapes =

1829

334

−

8014

167

69353

334

−

187907

334

169690

167

−

398167

334

128115

167

−

79988

167

128227

334

−

10968

167

−

22549

334

u +

4313

167

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· + 3u + 1

+ 4u

+ ··· − 3u − 1

− 3u

+ ··· − 3u + 1

+ u

+ ··· + u + 1

− 8u

+ ··· + 6u + 1

− u

+ 2u

− 2u

+ 3u

− 4u

+ 3u

+ 4u

− 4u

+ u

− 3u − 1

, c

− 8u

+ ··· + 3u − 1

− u

+ ··· + u − 1

, c

− 8u

+ ··· + 6u − 1

− 8u

+ ··· + 3u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− y

+ ··· + 29y −1

+ 4y

+ ··· + y −1

− 9y

+ ··· + 13y −1

− 13y

+ ··· + 9y −1

, c

− 16y

+ ··· + 36y −1

+ 3y

+ ··· + 9y −1

, c

− 16y

+ ··· + 5y −1

− 9y

+ ··· + 13y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.435709 + 0.993312I

a = −0.520595 − 0.029912I

b = 0.654428 + 0.601760I

0.97353 − 3.17072I 9.28444 + 4.13212I

u = 0.435709 − 0.993312I

a = −0.520595 + 0.029912I

b = 0.654428 − 0.601760I

0.97353 + 3.17072I 9.28444 − 4.13212I

u = 1.061160 + 0.495497I

a = 0.732805 − 0.137224I

b = −0.251004 − 0.343068I

−0.770496 − 0.447544I 3.02105 − 1.83729I

u = 1.061160 − 0.495497I

a = 0.732805 + 0.137224I

b = −0.251004 + 0.343068I

−0.770496 + 0.447544I 3.02105 + 1.83729I

u = 0.617945

a = −2.31410

b = −0.498845

6.70177 −2.62380

u = −0.419309

a = 1.25732

b = 1.36971

4.85657 7.56690

u = 1.65121

a = −0.801610

b = 1.66990

14.7388 −2.01490

u = −0.347490

a = −4.66144

b = −1.19869

9.08187 20.5940

u = −0.284103

a = −0.246049

b = −1.84911

11.2546 28.4090

u = 1.58796 + 1.06438I

a = 1.076420 + 0.264698I

b = −1.342970 + 0.254848I

3.10162 − 2.88236I 11.48583 + 3.31049I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.58796 − 1.06438I

a = 1.076420 − 0.264698I

b = −1.342970 − 0.254848I

3.10162 + 2.88236I 11.48583 − 3.31049I

u = 0.80605 + 1.83438I

a = −1.40570 − 0.19218I

b = 1.193070 − 0.241401I

2.98736 − 6.12170I 10.74301 + 9.13523I

u = 0.80605 − 1.83438I

a = −1.40570 + 0.19218I

b = 1.193070 + 0.241401I

2.98736 + 6.12170I 10.74301 − 9.13523I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 9u

+ ··· + 3u + 1)(u

+ 2u

+ ··· + 99u − 1)

+ 4u

+ ··· − 3u − 1)(u

+ u

+ ··· − 217u + 31)

− 3u

+ ··· − 3u + 1)(u

+ 2u

+ ··· − 3u − 1)

+ u

+ ··· + u + 1)(u

+ 2u

+ ··· − 23u − 19)

− 8u

+ ··· + 6u + 1)(u

− u

+ ··· + 2u − 1)

− u

+ 2u

− 2u

+ 3u

− 4u

+ 3u

+ 4u

− 4u

+ u

− 3u − 1)

· (u

+ 18u

+ ··· − 3u − 1)

, c

− 8u

+ ··· + 3u − 1)(u

+ u

+ ··· − 27u − 9)

− u

+ ··· + u − 1)(u

− 2u

+ ··· − 15u − 19)

, c

− 8u

+ ··· + 6u − 1)(u

− u

+ ··· + 2u − 1)

− 8u

+ ··· + 3u + 1)(u

+ u

+ ··· − 27u − 9)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− y

+ ··· + 29y −1)(y

− 8y

+ ··· + 6183y −1)

+ 4y

+ ··· + y −1)(y

+ 45y

+ ··· − 77345y −961)

− 9y

+ ··· + 13y −1)(y

− 36y

+ ··· + 175y −1)

− 13y

+ ··· + 9y −1)(y

− 20y

+ ··· + 7483y −361)

, c

− 16y

+ ··· + 36y −1)(y

− 43y

+ ··· − 26y −1)

+ 3y

+ ··· + 9y −1)(y

+ 36y

+ ··· − 413y −1)

, c

− 16y

+ ··· + 5y −1)(y

− 47y

+ ··· − 81y −81)

− 9y

+ ··· + 13y −1)(y

− 40y

+ ··· + 29903y −361)