12n

0729

(K12n

0729

)

A knot diagram

Linearized knot diagam

4 10 9 10 1 3 4 11 7 1 9 6

Solving Sequence

4,10 5,7

8 9 3 2 1 11 6 12

, c

Ideals for irreducible components

of X

par

= h8.98709 × 10

197

+ 3.28099 × 10

198

+ ··· + 1.56771 × 10

200

b + 3.12866 × 10

201

4.24469 × 10

201

+ 9.55967 × 10

201

+ ··· + 1.61004 × 10

203

a + 8.17316 × 10

204

+ u

+ ··· + 7117u − 1027i

= h2.79079 × 10

+ 1.76550 × 10

+ ··· + 2.38585 × 10

b − 1.48787 × 10

4.29144 × 10

+ 2.28509 × 10

+ ··· + 2.14726 × 10

a − 1.05273 × 10

, u

− 10u

+ ··· + 73u − 9i

* 2 irreducible components of dim

= 0, with total 80 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

= h8.99 × 10

197

+ 3.28 × 10

198

+ · · · + 1.57 × 10

200

b + 3.13 ×

201

, 4.24 × 10

201

+ 9.56 × 10

201

+ · · · + 1.61 × 10

203

a + 8.17 ×

204

, u

+ u

+ · · · + 7117u − 1027i

(i) Arc colorings















−0.0263639u

− 0.0593753u

+ ··· + 306.471u − 50.7637

−0.00573262u

− 0.0209285u

+ ··· + 140.907u − 19.9569





−0.0320965u

− 0.0803038u

+ ··· + 447.378u − 70.7206

−0.00573262u

− 0.0209285u

+ ··· + 140.907u − 19.9569





−0.0276476u

− 0.0285016u

+ ··· − 4.44141u − 21.8460

−0.0133010u

− 0.0190926u

+ ··· + 17.6945u − 4.17250





0.00962893u

+ 0.0347661u

+ ··· − 153.709u + 17.1775

0.00137276u

+ 0.0136626u

+ ··· − 118.572u + 17.6094





0.00962893u

+ 0.0347661u

+ ··· − 153.709u + 17.1775

−0.0130047u

− 0.0227497u

+ ··· + 50.4397u − 8.20641





−0.00337579u

+ 0.0120164u

+ ··· − 103.269u + 8.97114

−0.0130047u

− 0.0227497u

+ ··· + 50.4397u − 8.20641





0.0273854u

+ 0.0503706u

+ ··· − 200.581u + 48.9873

0.0113327u

+ 0.0369171u

+ ··· − 227.216u + 32.7951





−0.00894778u

− 0.00254877u

+ ··· − 150.638u + 30.0737

0.0204778u

+ 0.0335185u

+ ··· − 83.8092u + 15.3951





−0.0314997u

− 0.0527340u

+ ··· + 69.4621u − 13.0531

−0.0300231u

− 0.0787118u

+ ··· + 398.575u − 61.1428



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.0373141u

− 0.119218u

+ ··· + 753.945u − 118.284

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 7u

+ ··· − 22459u + 1219

+ 4u

+ ··· + 1084u + 167

+ u

+ ··· − 283u − 43

− u

+ ··· − 7117u − 1027

, c

+ 2u

+ ··· + 1960u + 664

+ 6u

+ ··· + 10u + 1

+ 9u

+ ··· − 10008u − 584

, c

+ u

+ ··· + 1066u + 97

+ u

+ ··· + u − 1

− 4u

+ ··· + 129032u − 9829

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 61y

+ ··· − 240710163y + 1485961

− 8y

+ ··· − 98574y + 27889

− 9y

+ ··· − 167293y + 1849

− 67y

+ ··· − 53586855y + 1054729

, c

+ 36y

+ ··· − 6938496y + 440896

+ 8y

+ ··· − 184y + 1

+ 18y

+ ··· − 5014784y + 341056

, c

+ 23y

+ ··· + 106020y + 9409

− 19y

+ ··· − 27y + 1

− 52y

+ ··· − 2754353568y + 96609241

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.984047 + 0.106547I

a = 0.732984 + 0.485124I

b = −0.71312 + 2.03208I

−5.10938 − 4.31500I 0

u = −0.984047 − 0.106547I

a = 0.732984 − 0.485124I

b = −0.71312 − 2.03208I

−5.10938 + 4.31500I 0

u = 0.951459 + 0.036280I

a = 0.756616 + 0.985473I

b = −0.14380 + 1.51989I

2.83534 − 4.32094I 0

u = 0.951459 − 0.036280I

a = 0.756616 − 0.985473I

b = −0.14380 − 1.51989I

2.83534 + 4.32094I 0

u = 0.889685 + 0.338008I

a = 1.06446 − 1.48155I

b = −0.428769 − 0.679768I

−0.25157 + 3.22294I 0

u = 0.889685 − 0.338008I

a = 1.06446 + 1.48155I

b = −0.428769 + 0.679768I

−0.25157 − 3.22294I 0

u = 0.938379 + 0.011522I

a = −0.161328 − 0.401628I

b = 0.308280 + 0.060433I

−1.102690 − 0.062220I 0

u = 0.938379 − 0.011522I

a = −0.161328 + 0.401628I

b = 0.308280 − 0.060433I

−1.102690 + 0.062220I 0

u = −0.735401 + 0.007028I

a = 1.37029 − 1.13833I

b = −0.71739 − 1.26490I

4.02435 + 6.74078I −6.40897 − 6.18806I

u = −0.735401 − 0.007028I

a = 1.37029 + 1.13833I

b = −0.71739 + 1.26490I

4.02435 − 6.74078I −6.40897 + 6.18806I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.611627 + 0.386837I

a = 1.49854 − 0.36748I

b = −0.269457 + 0.990833I

0.571664 − 1.277470I −8.81085 + 0.40906I

u = 0.611627 − 0.386837I

a = 1.49854 + 0.36748I

b = −0.269457 − 0.990833I

0.571664 + 1.277470I −8.81085 − 0.40906I

u = −0.543172 + 0.422725I

a = 0.719118 + 0.935767I

b = −1.320790 + 0.324187I

4.86373 + 2.09347I −6.47153 − 2.48732I

u = −0.543172 − 0.422725I

a = 0.719118 − 0.935767I

b = −1.320790 − 0.324187I

4.86373 − 2.09347I −6.47153 + 2.48732I

u = 1.208100 + 0.579060I

a = −0.037426 − 0.757251I

b = 0.521975 − 0.291948I

−0.975445 − 0.218387I 0

u = 1.208100 − 0.579060I

a = −0.037426 + 0.757251I

b = 0.521975 + 0.291948I

−0.975445 + 0.218387I 0

u = 0.660076

a = 0.366125

b = 0.323077

−1.09302 −7.08600

u = −0.554976 + 0.140362I

a = 1.75463 − 1.19601I

b = 0.273584 + 0.107138I

4.60137 − 0.26241I −5.57820 + 1.37492I

u = −0.554976 − 0.140362I

a = 1.75463 + 1.19601I

b = 0.273584 − 0.107138I

4.60137 + 0.26241I −5.57820 − 1.37492I

u = 1.34287 + 0.51625I

a = 0.360673 − 0.444881I

b = −0.86318 − 2.71719I

−1.29465 − 2.40549I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.34287 − 0.51625I

a = 0.360673 + 0.444881I

b = −0.86318 + 2.71719I

−1.29465 + 2.40549I 0

u = −1.09636 + 0.94746I

a = 0.401125 + 0.121349I

b = 0.133549 − 1.228370I

−4.43749 − 1.69406I 0

u = −1.09636 − 0.94746I

a = 0.401125 − 0.121349I

b = 0.133549 + 1.228370I

−4.43749 + 1.69406I 0

u = −0.479931 + 0.256201I

a = 0.80829 + 1.69787I

b = 0.357974 − 0.899794I

4.89868 − 5.92269I −8.28735 + 6.67085I

u = −0.479931 − 0.256201I

a = 0.80829 − 1.69787I

b = 0.357974 + 0.899794I

4.89868 + 5.92269I −8.28735 − 6.67085I

u = −1.45716

a = −0.652587

b = 1.66458

−6.65741 0

u = 1.51660 + 0.17170I

a = −0.397509 − 0.123089I

b = 2.78994 − 1.29874I

−2.05878 − 4.62210I 0

u = 1.51660 − 0.17170I

a = −0.397509 + 0.123089I

b = 2.78994 + 1.29874I

−2.05878 + 4.62210I 0

u = 0.159997 + 0.444223I

a = −0.891005 − 0.942470I

b = −0.215135 + 1.292810I

5.40486 + 3.03261I −1.43535 + 3.06435I

u = 0.159997 − 0.444223I

a = −0.891005 + 0.942470I

b = −0.215135 − 1.292810I

5.40486 − 3.03261I −1.43535 − 3.06435I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.55519 + 0.00032I

a = −0.587461 − 0.437982I

b = 0.67801 − 1.40728I

−6.26258 − 2.81974I 0

u = −1.55519 − 0.00032I

a = −0.587461 + 0.437982I

b = 0.67801 + 1.40728I

−6.26258 + 2.81974I 0

u = 0.127053 + 0.418851I

a = 1.23833 − 1.01400I

b = −0.126610 + 0.836327I

−0.617637 − 1.214780I −6.10791 + 5.67942I

u = 0.127053 − 0.418851I

a = 1.23833 + 1.01400I

b = −0.126610 − 0.836327I

−0.617637 + 1.214780I −6.10791 − 5.67942I

u = −1.63145

a = 0.436826

b = −1.65196

−9.90939 0

u = 1.76333 + 0.03132I

a = −0.750182 + 0.469345I

b = 1.20433 + 1.24812I

−4.94459 + 6.18934I 0

u = 1.76333 − 0.03132I

a = −0.750182 − 0.469345I

b = 1.20433 − 1.24812I

−4.94459 − 6.18934I 0

u = 0.222347 + 0.057423I

a = 4.52994 + 3.59770I

b = −0.062776 − 0.383104I

1.83627 − 4.60135I −3.06433 + 1.23782I

u = 0.222347 − 0.057423I

a = 4.52994 − 3.59770I

b = −0.062776 + 0.383104I

1.83627 + 4.60135I −3.06433 − 1.23782I

u = −0.48982 + 1.70817I

a = 0.647515 + 0.422020I

b = −1.71821 + 0.15561I

6.18677 + 0.35665I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.48982 − 1.70817I

a = 0.647515 − 0.422020I

b = −1.71821 − 0.15561I

6.18677 − 0.35665I 0

u = −1.79356 + 0.11460I

a = −0.715949 + 0.568710I

b = 0.49033 + 1.44237I

−7.85182 + 4.36860I 0

u = −1.79356 − 0.11460I

a = −0.715949 − 0.568710I

b = 0.49033 − 1.44237I

−7.85182 − 4.36860I 0

u = 1.62131 + 0.77787I

a = 0.785352 + 0.143559I

b = −1.54041 + 1.26825I

−2.94636 − 6.95100I 0

u = 1.62131 − 0.77787I

a = 0.785352 − 0.143559I

b = −1.54041 − 1.26825I

−2.94636 + 6.95100I 0

u = −1.75534 + 0.48896I

a = 0.227519 + 0.805258I

b = 0.410897 + 0.818197I

0.70429 + 7.95243I 0

u = −1.75534 − 0.48896I

a = 0.227519 − 0.805258I

b = 0.410897 − 0.818197I

0.70429 − 7.95243I 0

u = −1.80778 + 0.38348I

a = −0.171765 − 0.343297I

b = 0.191963 − 0.552646I

−3.74606 − 2.72375I 0

u = −1.80778 − 0.38348I

a = −0.171765 + 0.343297I

b = 0.191963 + 0.552646I

−3.74606 + 2.72375I 0

u = 1.90742 + 0.23418I

a = −0.392220 − 0.010291I

b = −0.096402 − 0.583283I

−2.82054 + 3.11371I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.90742 − 0.23418I

a = −0.392220 + 0.010291I

b = −0.096402 + 0.583283I

−2.82054 − 3.11371I 0

u = −1.87242 + 0.53585I

a = 0.710787 − 0.294332I

b = −1.36569 − 1.62804I

−0.6525 + 15.7491I 0

u = −1.87242 − 0.53585I

a = 0.710787 + 0.294332I

b = −1.36569 + 1.62804I

−0.6525 − 15.7491I 0

u = −1.96832

a = −1.31909

b = 0.902042

−11.0216 0

u = 0.12762 + 2.16706I

a = −0.451547 + 0.382090I

b = 1.61400 − 0.44696I

6.61103 − 6.39087I 0

u = 0.12762 − 2.16706I

a = −0.451547 − 0.382090I

b = 1.61400 + 0.44696I

6.61103 + 6.39087I 0

u = 1.97864 + 0.91027I

a = 0.389495 + 0.063606I

b = −0.011945 + 1.259660I

−1.21978 − 5.87932I 0

u = 1.97864 − 0.91027I

a = 0.389495 − 0.063606I

b = −0.011945 − 1.259660I

−1.21978 + 5.87932I 0

II. I

h2.79×10

+1.77×10

+· · ·+2.39×10

b−1.49×10

, 4.29×10

2.29 × 10

+ · · · + 2.15 × 10

a − 1.05 × 10

, u

− 10u

+ · · · + 73u − 9i

(i) Arc colorings















−0.199856u

− 0.106419u

+ ··· + 19.6045u + 0.490264

−0.0116973u

− 0.000739990u

+ ··· − 7.08742u + 0.623622





−0.211553u

− 0.107159u

+ ··· + 12.5171u + 1.11389

−0.0116973u

− 0.000739990u

+ ··· − 7.08742u + 0.623622





−0.336127u

− 0.0767089u

+ ··· + 51.7425u − 6.09472

−0.00505495u

+ 0.0250633u

+ ··· − 1.05021u + 0.800312





0.324297u

+ 0.300057u

+ ··· − 20.7701u + 6.75595

0.179573u

+ 0.111102u

+ ··· − 23.5518u + 3.45052





0.324297u

+ 0.300057u

+ ··· − 20.7701u + 6.75595

−0.0962234u

− 0.138807u

+ ··· − 4.56630u + 0.750012





0.228074u

+ 0.161250u

+ ··· − 25.3364u + 7.50597

−0.0962234u

− 0.138807u

+ ··· − 4.56630u + 0.750012





0.318413u

+ 0.152269u

+ ··· − 39.8613u + 2.56934

−0.0745587u

− 0.0585677u

+ ··· + 12.8859u − 2.38557





0.417332u

+ 0.134515u

+ ··· − 84.2017u + 11.3295

0.0872425u

+ 0.0721007u

+ ··· − 7.96511u − 0.936957





−0.196498u

− 0.237839u

+ ··· + 11.6692u − 7.14808

−0.238971u

− 0.175726u

+ ··· + 32.6164u − 4.66605



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

457412961431615476330833

238584851591663803618957

−

254429452136571387242067

238584851591663803618957

+ ··· +

58966595376988644279933534

238584851591663803618957

u −

10233901156098748389216510

238584851591663803618957

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 12u

+ ··· − 9u + 1

− u

+ ··· + 72u − 63

− u

+ ··· − 7u + 1

− 10u

+ ··· + 73u − 9

− u

+ ··· + 24u + 8

− u

+ ··· − 16u − 3

+ 3u

+ ··· + 8u − 56

− 2u

+ ··· + 2u + 1

+ 6u

+ ··· + 5u + 1

− 7u

+ ··· + 20u − 7

+ 2u

+ ··· − 2u + 1

+ u

+ ··· − 24u + 8

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 22y

+ ··· + 83y + 1

− 13y

+ ··· − 12240y + 3969

− 2y

+ ··· − 31y + 1

− 20y

+ ··· + 395y + 81

, c

+ 7y

+ ··· + 64y + 64

− 5y

+ ··· − 34y + 9

+ 5y

+ ··· + 39360y + 3136

, c

+ 6y

+ ··· − 2y + 1

− 12y

+ ··· − 13y + 1

− 21y

+ ··· + 6y + 49

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.074930 + 0.105891I

a = 1.065490 − 0.834834I

b = −0.116473 − 0.664580I

−0.49759 + 2.56520I −11.45169 − 0.03293I

u = 1.074930 − 0.105891I

a = 1.065490 + 0.834834I

b = −0.116473 + 0.664580I

−0.49759 − 2.56520I −11.45169 + 0.03293I

u = −0.534288 + 0.431482I

a = −0.434617 − 1.025970I

b = −0.157192 + 0.475540I

−1.81004 − 0.52019I −15.0020 + 3.2051I

u = −0.534288 − 0.431482I

a = −0.434617 + 1.025970I

b = −0.157192 − 0.475540I

−1.81004 + 0.52019I −15.0020 − 3.2051I

u = 0.661139 + 0.110313I

a = 1.56420 + 1.41244I

b = −0.229898 + 0.895312I

1.36966 − 5.12657I −11.4526 + 9.5918I

u = 0.661139 − 0.110313I

a = 1.56420 − 1.41244I

b = −0.229898 − 0.895312I

1.36966 + 5.12657I −11.4526 − 9.5918I

u = 1.395400 + 0.151449I

a = −0.635171 + 0.368343I

b = 1.07115 + 1.63083I

−6.51584 + 4.02828I −15.4736 − 6.2870I

u = 1.395400 − 0.151449I

a = −0.635171 − 0.368343I

b = 1.07115 − 1.63083I

−6.51584 − 4.02828I −15.4736 + 6.2870I

u = −0.51433 + 1.35727I

a = 0.844430 + 0.510048I

b = −1.50481 + 0.10273I

6.84628 + 0.34484I 0.584936 + 0.037274I

u = −0.51433 − 1.35727I

a = 0.844430 − 0.510048I

b = −1.50481 − 0.10273I

6.84628 − 0.34484I 0.584936 − 0.037274I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.07066 + 1.58496I

a = −0.581666 + 0.511900I

b = 1.29498 − 0.63093I

7.58470 − 6.19359I −1.94969 + 4.30160I

u = 0.07066 − 1.58496I

a = −0.581666 − 0.511900I

b = 1.29498 + 0.63093I

7.58470 + 6.19359I −1.94969 − 4.30160I

u = 1.62037

a = 0.458428

b = −1.67473

−9.98265 −65.6220

u = 1.38984 + 0.85119I

a = −0.299446 + 0.142790I

b = 0.092686 − 1.119880I

−4.73458 + 2.11091I −18.7205 − 5.4471I

u = 1.38984 − 0.85119I

a = −0.299446 − 0.142790I

b = 0.092686 + 1.119880I

−4.73458 − 2.11091I −18.7205 + 5.4471I

u = −1.67782 + 0.22721I

a = −0.181061 + 0.126576I

b = 1.29986 + 1.32033I

−1.70506 + 4.08011I −6.63396 − 1.41336I

u = −1.67782 − 0.22721I

a = −0.181061 − 0.126576I

b = 1.29986 − 1.32033I

−1.70506 − 4.08011I −6.63396 + 1.41336I

u = 0.124026 + 0.167304I

a = 3.57897 − 0.31377I

b = −0.39813 − 1.50149I

5.23332 − 3.56725I −5.47085 + 9.86595I

u = 0.124026 − 0.167304I

a = 3.57897 + 0.31377I

b = −0.39813 + 1.50149I

5.23332 + 3.56725I −5.47085 − 9.86595I

u = −1.82014 + 0.10403I

a = −0.726378 + 0.567727I

b = 0.55876 + 1.35106I

−8.37280 + 4.49491I −17.7083 − 5.1691I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.82014 − 0.10403I

a = −0.726378 − 0.567727I

b = 0.55876 − 1.35106I

−8.37280 − 4.49491I −17.7083 + 5.1691I

u = −1.95919

a = −1.29238

b = 0.852875

−11.1324 −44.8210

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 12u

+ ··· − 9u + 1)(u

+ 7u

+ ··· − 22459u + 1219)

− u

+ ··· + 72u − 63)(u

+ 4u

+ ··· + 1084u + 167)

− u

+ ··· − 7u + 1)(u

+ u

+ ··· − 283u − 43)

− 10u

+ ··· + 73u − 9)(u

− u

+ ··· − 7117u − 1027)

− u

+ ··· + 24u + 8)(u

+ 2u

+ ··· + 1960u + 664)

− u

+ ··· − 16u − 3)(u

+ 6u

+ ··· + 10u + 1)

+ 3u

+ ··· + 8u − 56)(u

+ 9u

+ ··· − 10008u − 584)

− 2u

+ ··· + 2u + 1)(u

+ u

+ ··· + 1066u + 97)

+ 6u

+ ··· + 5u + 1)(u

+ u

+ ··· + u − 1)

− 7u

+ ··· + 20u − 7)(u

− 4u

+ ··· + 129032u − 9829)

+ 2u

+ ··· − 2u + 1)(u

+ u

+ ··· + 1066u + 97)

+ u

+ ··· − 24u + 8)(u

+ 2u

+ ··· + 1960u + 664)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 22y

+ ··· + 83y + 1)

· (y

− 61y

+ ··· − 240710163y + 1485961)

− 13y

+ ··· − 12240y + 3969)

· (y

− 8y

+ ··· − 98574y + 27889)

− 2y

+ ··· − 31y + 1)(y

− 9y

+ ··· − 167293y + 1849)

− 20y

+ ··· + 395y + 81)

· (y

− 67y

+ ··· − 53586855y + 1054729)

, c

+ 7y

+ ··· + 64y + 64)

· (y

+ 36y

+ ··· − 6938496y + 440896)

− 5y

+ ··· − 34y + 9)(y

+ 8y

+ ··· − 184y + 1)

+ 5y

+ ··· + 39360y + 3136)

· (y

+ 18y

+ ··· − 5014784y + 341056)

, c

+ 6y

+ ··· − 2y + 1)(y

+ 23y

+ ··· + 106020y + 9409)

− 12y

+ ··· − 13y + 1)(y

− 19y

+ ··· − 27y + 1)

− 21y

+ ··· + 6y + 49)

· (y

− 52y

+ ··· − 2754353568y + 96609241)