12n

0520

(K12n

0520

)

A knot diagram

Linearized knot diagam

3 5 12 8 2 4 10 6 3 4 6 10

Solving Sequence

4,6 7,11

12 3 10 8 1 2 5 9

, c

Ideals for irreducible components

of X

par

= h−1.00773 × 10

215

+ 3.95891 × 10

215

+ ··· + 5.25110 × 10

219

b − 1.48407 × 10

220

− 1.77810 × 10

217

− 8.41460 × 10

217

+ ··· + 1.78060 × 10

221

a + 4.35856 × 10

221

+ 3u

+ ··· + 4862u − 6341i

= h9.41498 × 10

+ 2.05689 × 10

+ ··· + 9.99999 × 10

b − 4.03582 × 10

3.23988 × 10

+ 7.09015 × 10

+ ··· + 9.99999 × 10

a − 1.70850 × 10

, u

+ 2u

+ ··· − 14u + 1i

* 2 irreducible components of dim

= 0, with total 75 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−1.01 × 10

215

+ 3.96 × 10

215

+ · · · + 5.25 × 10

219

b − 1.48 ×

220

, −1.78 × 10

217

− 8.41 × 10

217

+ · · · + 1.78 × 10

221

a + 4.36 ×

221

, u

+ 3u

+ · · · + 4862u − 6341i

(i) Arc colorings











−u





0.0000998597u

+ 0.000472571u

+ ··· − 1.70493u − 2.44781

0.0000191908u

− 0.0000753920u

+ ··· + 2.51058u + 2.82621





0.000119051u

+ 0.000397179u

+ ··· + 0.805651u + 0.378407

0.0000191908u

− 0.0000753920u

+ ··· + 2.51058u + 2.82621





0.000439453u

+ 0.00130155u

+ ··· − 9.12833u + 2.22261

5.39110 × 10

−6

− 0.0000762385u

+ ··· + 0.556271u + 2.93121





0.0000998597u

+ 0.000472571u

+ ··· − 1.70493u − 2.44781

0.0000160377u

− 0.0000345076u

+ ··· + 2.71846u + 1.72927





−0.0000108886u

− 0.0000519635u

+ ··· − 1.50476u + 0.832419

−0.000450416u

− 0.00135705u

+ ··· + 13.8133u − 1.51385





8.14406 × 10

−8

− 0.000279970u

+ ··· + 6.32497u + 7.75382

−0.000125932u

− 0.000589665u

+ ··· + 3.03504u + 3.45260





−0.0000620439u

− 0.000144711u

+ ··· + 3.04412u + 0.737987

0.000267626u

+ 0.000799507u

+ ··· − 8.68003u + 0.274355





0.000100081u

+ 0.000476708u

+ ··· − 2.36634u − 2.92983

0.000135989u

+ 0.000606267u

+ ··· − 0.718613u − 4.76962





−0.000461305u

− 0.00140901u

+ ··· + 12.3085u − 0.681429

−0.000450416u

− 0.00135705u

+ ··· + 13.8133u − 1.51385



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.00197309u

− 0.00651879u

+ ··· + 43.1168u + 3.92550

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 34u

+ ··· + 261u − 169

, c

+ 17u

+ ··· − u − 13

− 4u

+ ··· − 29u − 1

− 3u

+ ··· − 160u − 29

+ 3u

+ ··· + 4862u − 6341

, c

+ u

+ ··· + 1301u − 319

+ 9u

+ ··· − 23423u − 2897

− 2u

+ ··· − 8637u − 2059

+ 2u

+ ··· + 31739u − 6187

+ 4u

+ ··· + 5373u − 431

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 18y

+ ··· + 2763333y −28561

, c

+ 34y

+ ··· + 261y −169

− 6y

+ ··· + 581y −1

− 5y

+ ··· − 35184y −841

+ 73y

+ ··· − 1088711858y −40208281

, c

+ 63y

+ ··· − 2658559y −101761

+ 35y

+ ··· − 164702969y −8392609

+ 62y

+ ··· − 51063001y −4239481

− 68y

+ ··· + 631132651y −38278969

+ 50y

+ ··· + 5965789y −185761

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.458700 + 0.836212I

a = 0.47157 + 1.49663I

b = 0.305132 − 0.747908I

0.11183 + 1.55303I 1.95072 − 2.89152I

u = 0.458700 − 0.836212I

a = 0.47157 − 1.49663I

b = 0.305132 + 0.747908I

0.11183 − 1.55303I 1.95072 + 2.89152I

u = 0.913175 + 0.260802I

a = −0.223977 − 0.423038I

b = −0.550856 − 0.738530I

3.80751 − 0.71144I 10.81195 − 1.56897I

u = 0.913175 − 0.260802I

a = −0.223977 + 0.423038I

b = −0.550856 + 0.738530I

3.80751 + 0.71144I 10.81195 + 1.56897I

u = −1.113670 + 0.091899I

a = −0.65683 + 1.51641I

b = 0.111069 − 0.811383I

−5.06254 + 5.92628I 0. − 4.32930I

u = −1.113670 − 0.091899I

a = −0.65683 − 1.51641I

b = 0.111069 + 0.811383I

−5.06254 − 5.92628I 0. + 4.32930I

u = 0.797854 + 0.338507I

a = 1.240170 + 0.296206I

b = −0.473741 + 0.512242I

0.29315 − 1.97385I 5.19969 + 3.03837I

u = 0.797854 − 0.338507I

a = 1.240170 − 0.296206I

b = −0.473741 − 0.512242I

0.29315 + 1.97385I 5.19969 − 3.03837I

u = −0.591324 + 0.479194I

a = −0.793327 + 0.649542I

b = −0.407085 + 0.865255I

3.30919 − 4.09772I 10.16062 + 6.84746I

u = −0.591324 − 0.479194I

a = −0.793327 − 0.649542I

b = −0.407085 − 0.865255I

3.30919 + 4.09772I 10.16062 − 6.84746I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.708799 + 0.253071I

a = 0.831284 + 0.009450I

b = −0.209759 + 0.509237I

−1.81477 − 2.14360I 1.18374 + 4.80550I

u = −0.708799 − 0.253071I

a = 0.831284 − 0.009450I

b = −0.209759 − 0.509237I

−1.81477 + 2.14360I 1.18374 − 4.80550I

u = 0.138897 + 0.673640I

a = 0.011792 − 0.623544I

b = 0.910818 − 0.785919I

−7.26057 + 1.21645I 0.427980 + 0.554142I

u = 0.138897 − 0.673640I

a = 0.011792 + 0.623544I

b = 0.910818 + 0.785919I

−7.26057 − 1.21645I 0.427980 − 0.554142I

u = −0.409118 + 0.518801I

a = 1.81243 − 0.36306I

b = −0.368450 − 0.362485I

0.707490 + 1.043870I 2.63060 + 1.21674I

u = −0.409118 − 0.518801I

a = 1.81243 + 0.36306I

b = −0.368450 + 0.362485I

0.707490 − 1.043870I 2.63060 − 1.21674I

u = −0.467933 + 1.326800I

a = 0.355998 + 0.883423I

b = −0.520534 − 1.220730I

−2.57844 + 3.79796I 0

u = −0.467933 − 1.326800I

a = 0.355998 − 0.883423I

b = −0.520534 + 1.220730I

−2.57844 − 3.79796I 0

u = −0.177490 + 0.564262I

a = 0.264895 + 0.985043I

b = 1.079970 + 0.527227I

−2.81057 + 3.19886I 4.08250 − 3.76051I

u = −0.177490 − 0.564262I

a = 0.264895 − 0.985043I

b = 1.079970 − 0.527227I

−2.81057 − 3.19886I 4.08250 + 3.76051I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.122496 + 0.504032I

a = 0.083451 − 1.312890I

b = 1.280030 − 0.596135I

−6.14972 − 8.50203I 1.50480 + 6.85692I

u = 0.122496 − 0.504032I

a = 0.083451 + 1.312890I

b = 1.280030 + 0.596135I

−6.14972 + 8.50203I 1.50480 − 6.85692I

u = −0.038547 + 0.511598I

a = 1.50581 + 0.77163I

b = 0.185020 − 0.254061I

0.38570 + 1.60336I 2.33296 − 4.99216I

u = −0.038547 − 0.511598I

a = 1.50581 − 0.77163I

b = 0.185020 + 0.254061I

0.38570 − 1.60336I 2.33296 + 4.99216I

u = 0.454497

a = 0.867401

b = −0.487142

0.882935 11.1550

u = −0.35658 + 1.53590I

a = −0.006681 − 1.169070I

b = −0.22183 + 1.78303I

−7.14735 − 6.72459I 0

u = −0.35658 − 1.53590I

a = −0.006681 + 1.169070I

b = −0.22183 − 1.78303I

−7.14735 + 6.72459I 0

u = 1.32120 + 0.87148I

a = 0.072899 − 0.543533I

b = −0.362960 + 0.792328I

−0.103767 + 0.867284I 0

u = 1.32120 − 0.87148I

a = 0.072899 + 0.543533I

b = −0.362960 − 0.792328I

−0.103767 − 0.867284I 0

u = 0.150297 + 0.353433I

a = 1.088790 − 0.154193I

b = −1.184760 + 0.246323I

1.04688 − 1.12802I −3.55524 − 3.81322I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.150297 − 0.353433I

a = 1.088790 + 0.154193I

b = −1.184760 − 0.246323I

1.04688 + 1.12802I −3.55524 + 3.81322I

u = 0.19519 + 1.66111I

a = 0.124385 + 1.042830I

b = −0.23067 − 1.60897I

−4.50056 + 3.53769I 0

u = 0.19519 − 1.66111I

a = 0.124385 − 1.042830I

b = −0.23067 + 1.60897I

−4.50056 − 3.53769I 0

u = −0.17081 + 1.69824I

a = 0.260758 − 1.042020I

b = 0.445170 + 1.129250I

−1.68388 + 4.70781I 0

u = −0.17081 − 1.69824I

a = 0.260758 + 1.042020I

b = 0.445170 − 1.129250I

−1.68388 − 4.70781I 0

u = −0.37546 + 1.72257I

a = −0.042439 − 0.816658I

b = −0.01000 + 1.66318I

−6.17568 − 1.37212I 0

u = −0.37546 − 1.72257I

a = −0.042439 + 0.816658I

b = −0.01000 − 1.66318I

−6.17568 + 1.37212I 0

u = −0.47575 + 1.78827I

a = −0.437619 − 0.836026I

b = −0.01817 + 1.74737I

−10.05530 − 0.59545I 0

u = −0.47575 − 1.78827I

a = −0.437619 + 0.836026I

b = −0.01817 − 1.74737I

−10.05530 + 0.59545I 0

u = 0.50496 + 1.78171I

a = −0.451915 + 0.949040I

b = 0.01078 − 1.76502I

−14.8051 + 5.1933I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.50496 − 1.78171I

a = −0.451915 − 0.949040I

b = 0.01078 + 1.76502I

−14.8051 − 5.1933I 0

u = 0.47150 + 1.79275I

a = −0.520806 + 0.790076I

b = −0.02767 − 1.71161I

−13.3198 − 4.9860I 0

u = 0.47150 − 1.79275I

a = −0.520806 − 0.790076I

b = −0.02767 + 1.71161I

−13.3198 + 4.9860I 0

u = 0.48338 + 1.81853I

a = 0.197047 + 0.819227I

b = −0.06259 − 1.51621I

−6.21422 + 3.83703I 0

u = 0.48338 − 1.81853I

a = 0.197047 − 0.819227I

b = −0.06259 + 1.51621I

−6.21422 − 3.83703I 0

u = −1.78497 + 0.62407I

a = −0.272598 + 0.574120I

b = −0.141685 − 0.657394I

−4.48898 − 5.80054I 0

u = −1.78497 − 0.62407I

a = −0.272598 − 0.574120I

b = −0.141685 + 0.657394I

−4.48898 + 5.80054I 0

u = 0.40813 + 2.08970I

a = 0.007416 − 0.968701I

b = 0.45117 + 1.67641I

−9.89971 + 9.10784I 0

u = 0.40813 − 2.08970I

a = 0.007416 + 0.968701I

b = 0.45117 − 1.67641I

−9.89971 − 9.10784I 0

u = −0.21276 + 2.13416I

a = 0.217139 − 0.984595I

b = −0.08489 + 1.49140I

−8.29738 − 3.26193I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.21276 − 2.13416I

a = 0.217139 + 0.984595I

b = −0.08489 − 1.49140I

−8.29738 + 3.26193I 0

u = −0.47216 + 2.09522I

a = −0.031964 + 0.982080I

b = 0.44713 − 1.72011I

−13.6692 − 14.9575I 0

u = −0.47216 − 2.09522I

a = −0.031964 − 0.982080I

b = 0.44713 + 1.72011I

−13.6692 + 14.9575I 0

u = −0.33765 + 2.15781I

a = 0.049776 + 1.003920I

b = 0.39293 − 1.63470I

−14.8380 − 3.7469I 0

u = −0.33765 − 2.15781I

a = 0.049776 − 1.003920I

b = 0.39293 + 1.63470I

−14.8380 + 3.7469I 0

II. I

h9.41×10

+2.06×10

+· · ·+1.00×10

b−4.04×10

, 3.24×10

7.09 × 10

+ · · · + 1.00 × 10

a − 1.71 × 10

, u

+ 2u

+ · · · − 14u + 1i

(i) Arc colorings











−u





−32.3988u

− 70.9016u

+ ··· − 1491.77u + 170.850

−0.941499u

− 2.05689u

+ ··· − 43.9860u + 4.03582





−33.3403u

− 72.9585u

+ ··· − 1535.76u + 174.886

−0.941499u

− 2.05689u

+ ··· − 43.9860u + 4.03582





−16.8236u

− 36.8452u

+ ··· − 771.199u + 85.2522

5.36412u

+ 11.7183u

+ ··· + 248.289u − 28.2108





−32.3988u

− 70.9016u

+ ··· − 1491.77u + 170.850

0.168831u

+ 0.351278u

+ ··· + 9.07021u − 2.06811





−26.5155u

− 58.0667u

+ ··· − 1216.85u + 140.767

−0.753809u

− 1.66202u

+ ··· − 33.7724u + 2.85889





−13.0882u

− 28.5954u

+ ··· − 607.666u + 65.7562

4.56802u

+ 9.98468u

+ ··· + 210.998u − 23.7432





−13.1542u

− 28.7857u

+ ··· − 606.496u + 64.0210

7.11259u

+ 15.5565u

+ ··· + 326.928u − 36.6149





−32.6380u

− 71.5392u

+ ··· − 1489.53u + 168.175

3.97446u

+ 8.71120u

+ ··· + 182.668u − 21.0322





−27.2693u

− 59.7288u

+ ··· − 1250.62u + 143.626

−0.753809u

− 1.66202u

+ ··· − 33.7724u + 2.85889



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

62641622421330731218172603

999998536254646311244669

−

137124516846403670777326513

999998536254646311244669

··· −

2878152757722006579821255122

999998536254646311244669

u +

338046622815474243224796674

999998536254646311244669

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 11u

+ ··· − 13u + 1

+ 3u

+ ··· + 3u + 1

+ 3u

+ ··· + u + 1

− 2u

+ ··· − 7u

+ 1

− 3u

+ ··· − 3u + 1

+ 2u

+ ··· − 14u + 1

+ 4u

+ ··· + 5u + 1

+ 2u

+ ··· + u + 1

− u

+ ··· + 11u + 1

+ u

+ ··· − 103u + 73

− 4u

+ ··· − 5u + 1

− 3u

+ ··· − u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 3y

+ ··· − 11y + 1

, c

+ 11y

+ ··· + 13y + 1

+ 11y

+ ··· + 9y + 1

− 16y

+ ··· − 14y + 1

+ 10y

+ ··· − 64y + 1

, c

+ 16y

+ ··· + 9y + 1

+ 4y

+ ··· − 25y + 1

+ 11y

+ ··· − 21y + 1

− 7y

+ ··· + 8663y + 5329

+ 11y

+ ··· + 13y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.940992 + 0.620229I

a = 0.773568 + 0.165278I

b = 0.231111 + 0.786500I

3.34471 − 1.65498I 6.43907 + 4.20509I

u = 0.940992 − 0.620229I

a = 0.773568 − 0.165278I

b = 0.231111 − 0.786500I

3.34471 + 1.65498I 6.43907 − 4.20509I

u = −0.842075 + 0.871841I

a = 0.793322 + 0.085027I

b = 0.226922 − 1.109400I

2.16792 − 3.50657I 3.05923 + 2.59992I

u = −0.842075 − 0.871841I

a = 0.793322 − 0.085027I

b = 0.226922 + 1.109400I

2.16792 + 3.50657I 3.05923 − 2.59992I

u = −0.402447 + 0.588078I

a = 1.56479 + 0.11995I

b = −0.468313 − 1.079950I

−0.64497 + 2.98534I 3.61521 − 5.29378I

u = −0.402447 − 0.588078I

a = 1.56479 − 0.11995I

b = −0.468313 + 1.079950I

−0.64497 − 2.98534I 3.61521 + 5.29378I

u = 1.134020 + 0.818765I

a = 0.079337 − 1.103920I

b = −0.220466 + 0.561392I

0.85761 + 1.50900I 14.5318 − 3.4126I

u = 1.134020 − 0.818765I

a = 0.079337 + 1.103920I

b = −0.220466 − 0.561392I

0.85761 − 1.50900I 14.5318 + 3.4126I

u = 0.339290 + 0.111161I

a = 1.95398 + 1.57017I

b = −0.748209 + 0.283121I

1.42125 − 1.38443I 14.3541 + 3.8433I

u = 0.339290 − 0.111161I

a = 1.95398 − 1.57017I

b = −0.748209 − 0.283121I

1.42125 + 1.38443I 14.3541 − 3.8433I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.57084 + 1.62511I

a = 0.163422 − 1.039380I

b = 0.07015 + 1.53272I

−7.72375 − 4.56543I −0.60389 + 5.70350I

u = −0.57084 − 1.62511I

a = 0.163422 + 1.039380I

b = 0.07015 − 1.53272I

−7.72375 + 4.56543I −0.60389 − 5.70350I

u = −1.74775 + 0.15837I

a = −0.006275 − 0.902457I

b = 0.323711 + 0.686202I

−3.96953 + 6.70083I 6.00000 − 9.43611I

u = −1.74775 − 0.15837I

a = −0.006275 + 0.902457I

b = 0.323711 − 0.686202I

−3.96953 − 6.70083I 6.00000 + 9.43611I

u = 0.193733 + 0.009969I

a = 2.07668 − 3.17071I

b = −0.874447 − 0.085240I

1.40571 + 1.37087I 13.2500 − 6.0434I

u = 0.193733 − 0.009969I

a = 2.07668 + 3.17071I

b = −0.874447 + 0.085240I

1.40571 − 1.37087I 13.2500 + 6.0434I

u = 0.24584 + 1.80696I

a = 0.179807 + 0.867154I

b = −0.12456 − 1.62181I

−5.72982 + 2.73889I 4.19668 − 0.49415I

u = 0.24584 − 1.80696I

a = 0.179807 − 0.867154I

b = −0.12456 + 1.62181I

−5.72982 − 2.73889I 4.19668 + 0.49415I

u = −0.29077 + 1.90159I

a = −0.078632 + 0.972344I

b = −0.415898 − 1.061560I

−0.99873 + 4.79549I 12.00812 − 6.11844I

u = −0.29077 − 1.90159I

a = −0.078632 − 0.972344I

b = −0.415898 + 1.061560I

−0.99873 − 4.79549I 12.00812 + 6.11844I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 11u

+ ··· − 13u + 1)(u

+ 34u

+ ··· + 261u − 169)

+ 3u

+ ··· + 3u + 1)(u

+ 17u

+ ··· − u − 13)

+ 3u

+ ··· + u + 1)(u

− 4u

+ ··· − 29u − 1)

− 2u

+ ··· − 7u

+ 1)(u

− 3u

+ ··· − 160u − 29)

− 3u

+ ··· − 3u + 1)(u

+ 17u

+ ··· − u − 13)

+ 2u

+ ··· − 14u + 1)(u

+ 3u

+ ··· + 4862u − 6341)

+ 4u

+ ··· + 5u + 1)(u

+ u

+ ··· + 1301u − 319)

+ 2u

+ ··· + u + 1)(u

+ 9u

+ ··· − 23423u − 2897)

− u

+ ··· + 11u + 1)(u

− 2u

+ ··· − 8637u − 2059)

+ u

+ ··· − 103u + 73)(u

+ 2u

+ ··· + 31739u − 6187)

− 4u

+ ··· − 5u + 1)(u

+ u

+ ··· + 1301u − 319)

− 3u

+ ··· − u + 1)(u

+ 4u

+ ··· + 5373u − 431)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 3y

+ ··· − 11y + 1)(y

− 18y

+ ··· + 2763333y −28561)

, c

+ 11y

+ ··· + 13y + 1)(y

+ 34y

+ ··· + 261y −169)

+ 11y

+ ··· + 9y + 1)(y

− 6y

+ ··· + 581y −1)

− 16y

+ ··· − 14y + 1)(y

− 5y

+ ··· − 35184y −841)

+ 10y

+ ··· − 64y + 1)

· (y

+ 73y

+ ··· − 1088711858y −40208281)

, c

+ 16y

+ ··· + 9y + 1)(y

+ 63y

+ ··· − 2658559y −101761)

+ 4y

+ ··· − 25y + 1)

· (y

+ 35y

+ ··· − 164702969y −8392609)

+ 11y

+ ··· − 21y + 1)

· (y

+ 62y

+ ··· − 51063001y −4239481)

− 7y

+ ··· + 8663y + 5329)

· (y

− 68y

+ ··· + 631132651y −38278969)

+ 11y

+ ··· + 13y + 1)

· (y

+ 50y

+ ··· + 5965789y −185761)