12n

0569

(K12n

0569

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,6

7 3

8,11

12 1 5 10 4 9

, c

Ideals for irreducible components

of X

par

= h8.11108 × 10

+ 4.91027 × 10

+ ··· + 5.66410 × 10

b − 1.34973 × 10

1.29757 × 10

+ 3.25753 × 10

+ ··· + 5.66410 × 10

a − 5.91852 × 10

, u

+ 2u

+ ··· − 9u − 1i

= hu

+ u

− 3u

− 4u

+ 7u

+ 10u

− 10u

− 16u

+ 11u

+ 19u

− 8u

− 15u

+ 4u

+ 7u

+ b − 2u − 2,

− 2u

− u

+ ··· + a + 1, u

+ u

+ ··· − 5u

+ 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.

= h8.11 × 10

+ 4.91 × 10

+ · · · + 5.66 × 10

b − 1.35 × 10

, 1.30 ×

+3.26×10

+· · ·+5.66×10

a−5.92×10

, u

+2u

+· · ·−9u−1i

(i) Arc colorings















−u

+ u





−u

+ 1





−2.29087u

− 5.75119u

+ ··· − 44.7958u + 0.104492

−0.143202u

− 0.0866910u

+ ··· + 6.22932u + 2.38295





−1.52712u

− 4.39667u

+ ··· − 31.5613u + 3.08463

−0.103380u

+ 0.538492u

+ ··· + 10.3860u + 2.75551





− u

+ u





−1.60930u

− 3.86858u

+ ··· − 1.74961u + 7.98100

1.09318u

+ 2.32144u

+ ··· + 8.84503u + 3.47131





−1.14552u

− 4.13737u

+ ··· − 72.7081u − 15.0427

−0.129885u

+ 0.333506u

+ ··· − 3.41712u − 2.96099





−2.16693u

− 5.96581u

+ ··· − 57.6969u − 9.85977

0.892300u

+ 1.86393u

+ ··· + 9.09728u − 0.642831





−0.697310u

− 3.28572u

+ ··· − 62.1886u − 13.9750

−0.544392u

− 0.342782u

+ ··· − 13.8913u − 4.07349



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4.70530u

− 10.9734u

+ ··· − 119.055u + 7.76720

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 20u

+ ··· + 111u + 1

, c

− 2u

+ ··· + 9u − 1

− 2u

+ ··· − 4u + 1

, c

+ u

+ ··· − 148u − 43

, c

− 4u

+ ··· + 12848u − 2119

− u

+ ··· + 2150u + 293

+ 2u

+ ··· + 44u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 44y

+ ··· − 6891y + 1

, c

− 20y

+ ··· − 111y + 1

− 56y

+ ··· + 254y + 1

, c

− 57y

+ ··· + 10690y + 1849

, c

− 34y

+ ··· − 42707330y + 4490161

+ 55y

+ ··· − 1142832y + 85849

+ 50y

+ ··· + 2238y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.649208 + 0.777185I

a = −1.311830 − 0.015356I

b = 1.41367 − 0.24080I

8.99829 − 0.85807I 7.14206 + 0.I

u = −0.649208 − 0.777185I

a = −1.311830 + 0.015356I

b = 1.41367 + 0.24080I

8.99829 + 0.85807I 7.14206 + 0.I

u = −0.192605 + 0.952386I

a = 1.59370 + 0.08023I

b = −1.374660 − 0.179161I

1.95932 + 3.47319I 7.38337 − 3.16681I

u = −0.192605 − 0.952386I

a = 1.59370 − 0.08023I

b = −1.374660 + 0.179161I

1.95932 − 3.47319I 7.38337 + 3.16681I

u = 0.704542 + 0.759694I

a = −2.20492 − 0.44914I

b = 1.66369 + 0.08603I

9.70913 + 0.22811I 5.29825 + 0.I

u = 0.704542 − 0.759694I

a = −2.20492 + 0.44914I

b = 1.66369 − 0.08603I

9.70913 − 0.22811I 5.29825 + 0.I

u = −0.844133 + 0.459005I

a = −0.88197 + 1.28310I

b = 0.794410 + 0.348082I

0.18156 + 3.43068I 3.97292 − 8.38855I

u = −0.844133 − 0.459005I

a = −0.88197 − 1.28310I

b = 0.794410 − 0.348082I

0.18156 − 3.43068I 3.97292 + 8.38855I

u = −0.785206 + 0.690856I

a = −1.51273 + 0.86981I

b = 0.940956 + 0.796608I

0.04805 + 2.72947I 6.00584 − 3.68019I

u = −0.785206 − 0.690856I

a = −1.51273 − 0.86981I

b = 0.940956 − 0.796608I

0.04805 − 2.72947I 6.00584 + 3.68019I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.675145 + 0.804414I

a = 0.143408 − 0.529642I

b = 0.449289 + 0.991573I

−1.36150 + 3.46891I 4.09542 − 2.58287I

u = 0.675145 − 0.804414I

a = 0.143408 + 0.529642I

b = 0.449289 − 0.991573I

−1.36150 − 3.46891I 4.09542 + 2.58287I

u = −1.06579

a = −0.471638

b = −1.49871

4.21383 −2.91260

u = −0.797269 + 0.746574I

a = −2.49041 + 1.51484I

b = 1.313240 − 0.095807I

0.640941 − 0.368761I 0

u = −0.797269 − 0.746574I

a = −2.49041 − 1.51484I

b = 1.313240 + 0.095807I

0.640941 + 0.368761I 0

u = −1.093130 + 0.112916I

a = −0.372147 − 0.718737I

b = −0.097432 − 0.849324I

−7.71465 + 3.17136I 0. − 3.24101I

u = −1.093130 − 0.112916I

a = −0.372147 + 0.718737I

b = −0.097432 + 0.849324I

−7.71465 − 3.17136I 0. + 3.24101I

u = 0.897438 + 0.025837I

a = 0.83649 + 1.36225I

b = −1.246550 + 0.521890I

−4.22900 − 1.73682I −1.19489 + 1.04559I

u = 0.897438 − 0.025837I

a = 0.83649 − 1.36225I

b = −1.246550 − 0.521890I

−4.22900 + 1.73682I −1.19489 − 1.04559I

u = 0.865118 + 0.692108I

a = −0.329927 − 0.483809I

b = −0.099466 − 0.733477I

3.97645 − 2.66265I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.865118 − 0.692108I

a = −0.329927 + 0.483809I

b = −0.099466 + 0.733477I

3.97645 + 2.66265I 0

u = 1.12004

a = −0.852945

b = −1.22513

3.22886 2.00000

u = −0.927826 + 0.684508I

a = 0.367169 − 0.609308I

b = −1.072260 + 0.836652I

−0.38663 + 2.57641I 0

u = −0.927826 − 0.684508I

a = 0.367169 + 0.609308I

b = −1.072260 − 0.836652I

−0.38663 − 2.57641I 0

u = −0.671464 + 0.950623I

a = 1.75527 − 0.30187I

b = −1.53135 + 0.36764I

5.01980 − 8.36674I 0

u = −0.671464 − 0.950623I

a = 1.75527 + 0.30187I

b = −1.53135 − 0.36764I

5.01980 + 8.36674I 0

u = 0.813233 + 0.191671I

a = 0.451115 + 0.585998I

b = 0.221008 + 0.395351I

−1.37591 − 0.60280I −3.98558 + 1.14738I

u = 0.813233 − 0.191671I

a = 0.451115 − 0.585998I

b = 0.221008 − 0.395351I

−1.37591 + 0.60280I −3.98558 − 1.14738I

u = −0.938275 + 0.718133I

a = 2.51455 − 0.78526I

b = −1.40735 − 0.18115I

0.20384 + 5.94515I 0

u = −0.938275 − 0.718133I

a = 2.51455 + 0.78526I

b = −1.40735 + 0.18115I

0.20384 − 5.94515I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.400647 + 0.687623I

a = 0.654871 + 0.604463I

b = 0.179950 − 0.417028I

−3.03619 − 1.14742I 1.89413 + 2.71155I

u = 0.400647 − 0.687623I

a = 0.654871 − 0.604463I

b = 0.179950 + 0.417028I

−3.03619 + 1.14742I 1.89413 − 2.71155I

u = 1.068030 + 0.569719I

a = −1.042390 + 0.124560I

b = 0.140212 − 0.417001I

−4.94353 − 3.70127I 0

u = 1.068030 − 0.569719I

a = −1.042390 − 0.124560I

b = 0.140212 + 0.417001I

−4.94353 + 3.70127I 0

u = −0.899742 + 0.819342I

a = 0.385454 − 0.035512I

b = 0.037648 − 0.622247I

4.54646 + 3.06184I 0

u = −0.899742 − 0.819342I

a = 0.385454 + 0.035512I

b = 0.037648 + 0.622247I

4.54646 − 3.06184I 0

u = 0.998592 + 0.706419I

a = 1.64774 + 1.70115I

b = −1.63453 + 0.16359I

8.81746 − 5.81212I 0

u = 0.998592 − 0.706419I

a = 1.64774 − 1.70115I

b = −1.63453 − 0.16359I

8.81746 + 5.81212I 0

u = −1.029770 + 0.700716I

a = 1.01570 − 1.60259I

b = −1.311010 − 0.312734I

7.85730 + 6.47303I 0

u = −1.029770 − 0.700716I

a = 1.01570 + 1.60259I

b = −1.311010 + 0.312734I

7.85730 − 6.47303I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.018850 + 0.717395I

a = 1.035050 + 0.243093I

b = −0.380419 + 1.097530I

−2.39802 − 9.20313I 0

u = 1.018850 − 0.717395I

a = 1.035050 − 0.243093I

b = −0.380419 − 1.097530I

−2.39802 + 9.20313I 0

u = 0.853820 + 0.915715I

a = 1.68680 + 0.32381I

b = −1.367730 − 0.197646I

9.17939 − 0.17615I 0

u = 0.853820 − 0.915715I

a = 1.68680 − 0.32381I

b = −1.367730 + 0.197646I

9.17939 + 0.17615I 0

u = 1.245010 + 0.220439I

a = −0.109370 − 0.713094I

b = 1.355710 − 0.323925I

−3.11278 − 7.32391I 0

u = 1.245010 − 0.220439I

a = −0.109370 + 0.713094I

b = 1.355710 + 0.323925I

−3.11278 + 7.32391I 0

u = 0.979010 + 0.852448I

a = −1.77380 − 1.22586I

b = 1.340370 − 0.264461I

8.77545 − 6.33818I 0

u = 0.979010 − 0.852448I

a = −1.77380 + 1.22586I

b = 1.340370 + 0.264461I

8.77545 + 6.33818I 0

u = −1.212290 + 0.502784I

a = −0.308235 + 0.936072I

b = 1.265380 − 0.139334I

−1.33691 + 1.73049I 0

u = −1.212290 − 0.502784I

a = −0.308235 − 0.936072I

b = 1.265380 + 0.139334I

−1.33691 − 1.73049I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.606543 + 0.302471I

a = 1.286880 − 0.357784I

b = −0.620734 − 0.064910I

0.958498 + 0.031162I 9.31326 − 1.44144I

u = −0.606543 − 0.302471I

a = 1.286880 + 0.357784I

b = −0.620734 + 0.064910I

0.958498 − 0.031162I 9.31326 + 1.44144I

u = −1.079880 + 0.772455I

a = −1.65559 + 1.44153I

b = 1.53699 + 0.42805I

3.7392 + 14.6910I 0

u = −1.079880 − 0.772455I

a = −1.65559 − 1.44153I

b = 1.53699 − 0.42805I

3.7392 − 14.6910I 0

u = 0.453560 + 0.034976I

a = 3.14159 + 1.95342I

b = 0.810649 − 0.339207I

−2.55565 − 1.59256I −2.14433 + 3.75237I

u = 0.453560 − 0.034976I

a = 3.14159 − 1.95342I

b = 0.810649 + 0.339207I

−2.55565 + 1.59256I −2.14433 − 3.75237I

u = −0.435557

a = 1.52560

b = −0.476437

0.883998 12.6720

u = −0.109994

a = 3.75403

b = 1.56091

7.69349 17.3580

II.

= hu

+· · ·+b −2, −2u

−u

+· · ·+a +1, u

+· · ·−5u

+1i

(i) Arc colorings















−u

+ u





−u

+ 1





+ u

+ ··· − 2u − 1

−u

− u

+ ··· + 2u + 2





− 3u

+ ··· + u − 1

−u

− u

+ ··· + 3u + 2





− u

+ u





−u

+ 4u

+ ··· − 3u − 1

−u

− u

+ ··· + 4u + 1





−u

− u

+ ··· + u − 1

+ u

+ ··· − 2u − 2





−u

+ 3u

+ ··· − 3u + 2

+ u

+ ··· − 2u − 2





−u

− u

+ ··· + 5u

+ u

+ ··· − 2u − 3



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

+ 4u

+ 8u

− 9u

− 25u

+ 22u

+ 46u

− 26u

−

69u

+ 31u

+ 73u

− 19u

− 62u

+ 15u

+ 32u

− 5u − 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 7u

+ ··· + 10u − 1

− u

+ ··· + 5u

− 1

+ 3u

+ ··· + 5u − 1

, c

− 10u

+ ··· − 5u − 1

+ u

+ ··· − 5u

+ 1

+ 7u

+ ··· + 10u + 1

− 3u

+ ··· + u + 1

+ 4u

+ ··· − 5u − 1

− 10u

+ ··· − 5u + 1

+ 3u

+ ··· + u − 1

− u

+ ··· − 3u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 13y

+ ··· + 6y −1

, c

− 7y

+ ··· + 10y −1

− 11y

+ ··· + 85y −1

, c

− 20y

+ ··· + 21y −1

, c

− 9y

+ ··· − 7y −1

+ 8y

+ ··· + 7y −1

+ 7y

+ ··· + 9y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.06231

a = −0.790966

b = −1.44148

4.98345 8.53260

u = −1.041520 + 0.456686I

a = −0.162038 + 0.210070I

b = 0.925549 + 0.313937I

−3.48692 + 4.50075I 2.82410 − 4.82928I

u = −1.041520 − 0.456686I

a = −0.162038 − 0.210070I

b = 0.925549 − 0.313937I

−3.48692 − 4.50075I 2.82410 + 4.82928I

u = −0.781537 + 0.841435I

a = −1.83272 + 0.28651I

b = 1.54958 − 0.17210I

11.09800 + 0.42854I 10.90013 − 2.04793I

u = −0.781537 − 0.841435I

a = −1.83272 − 0.28651I

b = 1.54958 + 0.17210I

11.09800 − 0.42854I 10.90013 + 2.04793I

u = 0.625681 + 0.562777I

a = 2.71785 + 1.10655I

b = −1.041450 + 0.419962I

−1.55933 − 2.45596I 2.34776 + 4.55656I

u = 0.625681 − 0.562777I

a = 2.71785 − 1.10655I

b = −1.041450 − 0.419962I

−1.55933 + 2.45596I 2.34776 − 4.55656I

u = 1.054550 + 0.525536I

a = −0.812965 − 1.099150I

b = 1.056020 + 0.333361I

−3.00027 − 1.96632I 0.48389 + 2.00939I

u = 1.054550 − 0.525536I

a = −0.812965 + 1.099150I

b = 1.056020 − 0.333361I

−3.00027 + 1.96632I 0.48389 − 2.00939I

u = −0.817244

a = 1.31700

b = −0.218613

0.403753 −6.40080

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.894942 + 0.792445I

a = −0.222477 − 0.373187I

b = −0.060430 − 0.491411I

5.24194 − 2.98033I 10.80588 + 2.40227I

u = 0.894942 − 0.792445I

a = −0.222477 + 0.373187I

b = −0.060430 + 0.491411I

5.24194 + 2.98033I 10.80588 − 2.40227I

u = −0.628631 + 0.430544I

a = −1.289760 − 0.576771I

b = −0.903071 + 0.410573I

−2.04052 − 0.75125I 3.45772 − 1.80188I

u = −0.628631 − 0.430544I

a = −1.289760 + 0.576771I

b = −0.903071 − 0.410573I

−2.04052 + 0.75125I 3.45772 + 1.80188I

u = −1.002690 + 0.779560I

a = 1.57786 − 1.54150I

b = −1.49772 − 0.20521I

10.41440 + 5.64550I 10.01176 − 3.44000I

u = −1.002690 − 0.779560I

a = 1.57786 + 1.54150I

b = −1.49772 + 0.20521I

10.41440 − 5.64550I 10.01176 + 3.44000I

u = 0.513320

a = −1.47754

b = 1.60313

7.33620 −5.79430

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 7u

+ ··· + 10u − 1)(u

+ 20u

+ ··· + 111u + 1)

− u

+ ··· + 5u

− 1)(u

− 2u

+ ··· + 9u − 1)

+ 3u

+ ··· + 5u − 1)(u

− 2u

+ ··· − 4u + 1)

, c

− 10u

+ ··· − 5u − 1)(u

+ u

+ ··· − 148u − 43)

+ u

+ ··· − 5u

+ 1)(u

− 2u

+ ··· + 9u − 1)

+ 7u

+ ··· + 10u + 1)(u

+ 20u

+ ··· + 111u + 1)

− 3u

+ ··· + u + 1)(u

− 4u

+ ··· + 12848u − 2119)

+ 4u

+ ··· − 5u − 1)(u

− u

+ ··· + 2150u + 293)

− 10u

+ ··· − 5u + 1)(u

+ u

+ ··· − 148u − 43)

+ 3u

+ ··· + u − 1)(u

− 4u

+ ··· + 12848u − 2119)

− u

+ ··· − 3u − 1)(u

+ 2u

+ ··· + 44u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 13y

+ ··· + 6y −1)(y

+ 44y

+ ··· − 6891y + 1)

, c

− 7y

+ ··· + 10y −1)(y

− 20y

+ ··· − 111y + 1)

− 11y

+ ··· + 85y −1)(y

− 56y

+ ··· + 254y + 1)

, c

− 20y

+ ··· + 21y −1)(y

− 57y

+ ··· + 10690y + 1849)

, c

− 9y

+ ··· − 7y −1)

· (y

− 34y

+ ··· − 42707330y + 4490161)

+ 8y

+ ··· + 7y −1)(y

+ 55y

+ ··· − 1142832y + 85849)

+ 7y

+ ··· + 9y −1)(y

+ 50y

+ ··· + 2238y + 1)