12a

1234

(K12a

1234

)

A knot diagram

Linearized knot diagam

5 6 9 10 2 11 12 1 4 3 8 7

Solving Sequence

8,11

12 7 1 9

2,6

3 5 10 4

, c

Ideals for irreducible components

of X

par

= h1.93075 × 10

− 9.36918 × 10

+ ··· + 2.61600 × 10

b − 2.51001 × 10

3.91390 × 10

− 8.79983 × 10

+ ··· + 2.61600 × 10

a − 2.96665 × 10

, u

− 2u

+ ··· − 8u − 1i

= h−au − u

+ b + u − 1, a

− 4u

+ 2u − 6, u

− u

+ 2u − 1i

= h−u

+ b − u − 1, a, u

+ u

+ 2u + 1i

* 3 irreducible components of dim

= 0, with total 81 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.

= h1.93 × 10

− 9.37 × 10

+ · · · + 2.62 × 10

b − 2.51 × 10

, 3.91 ×

−8.80×10

+· · ·+2.62×10

a−2.97×10

, u

−2u

+· · ·−8u−1i

(i) Arc colorings















+ u





+ 1

+ 2u





−u

− 2u

− u

−u

− 3u

− 2u

+ u





−1.49614u

+ 3.36385u

+ ··· + 9.35049u + 11.3404

−0.0738055u

+ 0.358149u

+ ··· − 1.96687u + 0.959482





+ 2u

+ u





−1.70670u

+ 4.43356u

+ ··· + 11.3889u + 11.8788

−0.0934270u

+ 1.10929u

+ ··· − 1.29641u + 1.19703





0.959482u

− 1.99277u

+ ··· − 1.06519u − 9.64273

0.371572u

− 0.601476u

+ ··· − 0.628716u − 1.49614





−2.52657u

+ 5.46669u

+ ··· + 6.75726u + 15.3627

−0.515104u

+ 0.594756u

+ ··· + 2.97411u + 2.22254





−1.82146u

+ 4.39966u

+ ··· + 11.3717u + 12.1549

0.225358u

+ 0.517327u

+ ··· − 1.91838u + 0.946928



(ii) Obstruction class = −1

(iii) Cusp Shapes =

131451318810141352881632

130800077995111299411101

−

277192896356154580549909

130800077995111299411101

+ ··· +

732571967736991836052242

130800077995111299411101

u +

336112699848274877396314

130800077995111299411101

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 4u

+ ··· + 51u − 7

, c

− u

+ ··· + 8u − 8

, c

− 2u

+ ··· + 5260u − 481

, c

+ 2u

+ ··· + 8u − 1

+ 3u

+ ··· − 2888u − 5768

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 70y

+ ··· + 423y + 49

, c

− 65y

+ ··· − 448y + 64

, c

− 52y

+ ··· − 12759486y + 231361

, c

+ 60y

+ ··· − 62y + 1

+ 19y

+ ··· − 312337216y + 33269824

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.855221 + 0.104555I

a = −3.51455 − 0.94548I

b = −2.90722 − 0.53414I

−11.19460 + 5.99079I −11.45914 − 4.34329I

u = −0.855221 − 0.104555I

a = −3.51455 + 0.94548I

b = −2.90722 + 0.53414I

−11.19460 − 5.99079I −11.45914 + 4.34329I

u = 0.846928 + 0.141420I

a = −3.30013 + 1.21203I

b = −2.78162 + 0.68434I

−5.95434 − 10.47780I −7.43345 + 6.18173I

u = 0.846928 − 0.141420I

a = −3.30013 − 1.21203I

b = −2.78162 − 0.68434I

−5.95434 + 10.47780I −7.43345 − 6.18173I

u = 0.849158 + 0.055790I

a = −3.83366 + 0.58255I

b = −3.09139 + 0.33000I

−8.96835 − 1.04646I −9.68773 − 0.28213I

u = 0.849158 − 0.055790I

a = −3.83366 − 0.58255I

b = −3.09139 − 0.33000I

−8.96835 + 1.04646I −9.68773 + 0.28213I

u = 0.413905 + 1.104350I

a = 1.63797 − 1.57519I

b = 2.11853 + 0.95743I

−3.00550 + 5.94009I 0

u = 0.413905 − 1.104350I

a = 1.63797 + 1.57519I

b = 2.11853 − 0.95743I

−3.00550 − 5.94009I 0

u = 0.805296 + 0.104399I

a = 1.033840 − 0.702962I

b = 0.912278 − 0.053298I

0.09644 − 6.17633I −4.65210 + 5.74472I

u = 0.805296 − 0.104399I

a = 1.033840 + 0.702962I

b = 0.912278 + 0.053298I

0.09644 + 6.17633I −4.65210 − 5.74472I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.340749 + 1.153980I

a = −0.553879 + 0.101561I

b = −0.951773 − 0.318003I

3.29054 + 2.00837I 0

u = 0.340749 − 1.153980I

a = −0.553879 − 0.101561I

b = −0.951773 + 0.318003I

3.29054 − 2.00837I 0

u = −0.789046 + 0.047967I

a = 0.926833 + 0.645835I

b = 0.870318 + 0.061520I

−4.46192 + 2.46018I −10.16635 − 4.00752I

u = −0.789046 − 0.047967I

a = 0.926833 − 0.645835I

b = 0.870318 − 0.061520I

−4.46192 − 2.46018I −10.16635 + 4.00752I

u = 0.782297 + 0.041244I

a = 0.717071 + 0.660038I

b = 0.814839 + 0.084621I

−1.27923 − 1.03150I −6.99400 + 0.63948I

u = 0.782297 − 0.041244I

a = 0.717071 − 0.660038I

b = 0.814839 − 0.084621I

−1.27923 + 1.03150I −6.99400 − 0.63948I

u = −0.414055 + 1.158140I

a = 1.60375 + 1.71714I

b = 2.38953 − 0.91844I

−7.96420 − 1.43495I 0

u = −0.414055 − 1.158140I

a = 1.60375 − 1.71714I

b = 2.38953 + 0.91844I

−7.96420 + 1.43495I 0

u = −0.481039 + 0.598411I

a = 0.375183 − 1.317490I

b = 0.464545 + 0.103622I

−1.22913 + 5.72696I −4.74473 − 6.15763I

u = −0.481039 − 0.598411I

a = 0.375183 + 1.317490I

b = 0.464545 − 0.103622I

−1.22913 − 5.72696I −4.74473 + 6.15763I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.767390

a = −5.25539

b = −3.90280

−0.107189 −8.73150

u = −0.089470 + 1.249190I

a = 0.634254 + 0.081148I

b = −0.714517 + 1.152590I

1.49723 + 1.57721I 0

u = −0.089470 − 1.249190I

a = 0.634254 − 0.081148I

b = −0.714517 − 1.152590I

1.49723 − 1.57721I 0

u = 0.324593 + 1.231220I

a = 0.095849 + 0.773188I

b = −0.573454 − 0.363220I

2.37868 − 2.96753I 0

u = 0.324593 − 1.231220I

a = 0.095849 − 0.773188I

b = −0.573454 + 0.363220I

2.37868 + 2.96753I 0

u = −0.332624 + 1.229470I

a = −0.494776 − 0.054404I

b = −0.964484 + 0.433638I

−0.83246 + 1.58738I 0

u = −0.332624 − 1.229470I

a = −0.494776 + 0.054404I

b = −0.964484 − 0.433638I

−0.83246 − 1.58738I 0

u = −0.621231 + 0.374947I

a = 0.245228 − 1.110140I

b = 0.612440 − 0.033140I

−1.94589 − 1.80647I −6.41560 − 0.05777I

u = −0.621231 − 0.374947I

a = 0.245228 + 1.110140I

b = 0.612440 + 0.033140I

−1.94589 + 1.80647I −6.41560 + 0.05777I

u = 0.401285 + 1.213440I

a = 1.52913 − 1.92577I

b = 2.74245 + 0.83179I

−5.40292 − 3.44004I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.401285 − 1.213440I

a = 1.52913 + 1.92577I

b = 2.74245 − 0.83179I

−5.40292 + 3.44004I 0

u = 0.526133 + 0.479268I

a = 0.264306 + 1.274860I

b = 0.551953 − 0.042979I

−5.48345 − 1.89351I −9.94754 + 3.92631I

u = 0.526133 − 0.479268I

a = 0.264306 − 1.274860I

b = 0.551953 + 0.042979I

−5.48345 + 1.89351I −9.94754 − 3.92631I

u = −0.021601 + 1.289030I

a = 0.982879 − 0.665839I

b = −1.11100 − 1.60954I

7.38621 + 0.45778I 0

u = −0.021601 − 1.289030I

a = 0.982879 + 0.665839I

b = −1.11100 + 1.60954I

7.38621 − 0.45778I 0

u = 0.260985 + 1.272720I

a = −0.153726 + 0.524674I

b = −0.776623 − 0.528444I

2.21876 − 3.34010I 0

u = 0.260985 − 1.272720I

a = −0.153726 − 0.524674I

b = −0.776623 + 0.528444I

2.21876 + 3.34010I 0

u = 0.047615 + 1.309970I

a = −0.701791 + 0.007598I

b = 0.040193 − 0.254286I

4.63025 − 1.60850I 0

u = 0.047615 − 1.309970I

a = −0.701791 − 0.007598I

b = 0.040193 + 0.254286I

4.63025 + 1.60850I 0

u = −0.327283 + 1.273420I

a = 1.52077 + 2.75302I

b = 3.91217 − 0.83641I

3.84964 + 3.94691I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.327283 − 1.273420I

a = 1.52077 − 2.75302I

b = 3.91217 + 0.83641I

3.84964 − 3.94691I 0

u = 0.663829

a = 0.875997

b = 0.804619

−1.74281 −3.26010

u = 0.340856 + 1.295450I

a = −0.439050 − 0.044410I

b = −1.021930 − 0.522230I

2.89162 − 5.08382I 0

u = 0.340856 − 1.295450I

a = −0.439050 + 0.044410I

b = −1.021930 + 0.522230I

2.89162 + 5.08382I 0

u = −0.345526 + 1.301720I

a = −0.055600 − 0.900464I

b = −0.736941 + 0.208894I

−0.24447 + 6.55260I 0

u = −0.345526 − 1.301720I

a = −0.055600 + 0.900464I

b = −0.736941 − 0.208894I

−0.24447 − 6.55260I 0

u = −0.240433 + 1.331850I

a = −0.521834 − 0.837953I

b = −1.098430 + 0.565000I

8.17221 + 2.72991I 0

u = −0.240433 − 1.331850I

a = −0.521834 + 0.837953I

b = −1.098430 − 0.565000I

8.17221 − 2.72991I 0

u = 0.381480 + 1.308120I

a = 1.02332 − 2.24320I

b = 3.24181 + 0.18133I

−4.70869 − 5.46372I 0

u = 0.381480 − 1.308120I

a = 1.02332 + 2.24320I

b = 3.24181 − 0.18133I

−4.70869 + 5.46372I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.070481 + 1.375000I

a = −0.710558 + 0.082467I

b = 0.434145 + 0.464159I

10.20230 + 4.09393I 0

u = −0.070481 − 1.375000I

a = −0.710558 − 0.082467I

b = 0.434145 − 0.464159I

10.20230 − 4.09393I 0

u = 0.351583 + 1.335210I

a = −0.094715 + 0.966773I

b = −0.805731 − 0.126163I

4.61739 − 10.34930I 0

u = 0.351583 − 1.335210I

a = −0.094715 − 0.966773I

b = −0.805731 + 0.126163I

4.61739 + 10.34930I 0

u = −0.380105 + 1.341130I

a = 0.77057 + 2.17800I

b = 3.17864 + 0.12703I

−6.65706 + 10.42950I 0

u = −0.380105 − 1.341130I

a = 0.77057 − 2.17800I

b = 3.17864 − 0.12703I

−6.65706 − 10.42950I 0

u = 0.142108 + 1.400830I

a = 0.073563 − 0.435223I

b = −1.082410 − 0.884379I

0.48745 − 4.08574I 0

u = 0.142108 − 1.400830I

a = 0.073563 + 0.435223I

b = −1.082410 + 0.884379I

0.48745 + 4.08574I 0

u = 0.369333 + 1.361460I

a = 0.58444 − 2.15508I

b = 3.15725 − 0.33932I

−1.2207 − 14.8549I 0

u = 0.369333 − 1.361460I

a = 0.58444 + 2.15508I

b = 3.15725 + 0.33932I

−1.2207 + 14.8549I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.317187 + 0.489927I

a = 0.090286 − 0.752772I

b = −0.635338 − 0.425944I

4.43235 + 2.91765I 1.16854 − 6.33914I

u = −0.317187 − 0.489927I

a = 0.090286 + 0.752772I

b = −0.635338 + 0.425944I

4.43235 − 2.91765I 1.16854 + 6.33914I

u = −0.22131 + 1.40591I

a = −0.133181 + 0.324090I

b = −1.068390 + 0.764012I

3.69568 + 1.17982I 0

u = −0.22131 − 1.40591I

a = −0.133181 − 0.324090I

b = −1.068390 − 0.764012I

3.69568 − 1.17982I 0

u = −0.09732 + 1.43277I

a = 0.098014 + 0.602807I

b = −1.16805 + 0.91404I

5.29029 + 7.47149I 0

u = −0.09732 − 1.43277I

a = 0.098014 − 0.602807I

b = −1.16805 − 0.91404I

5.29029 − 7.47149I 0

u = −0.492033 + 0.179262I

a = 1.73174 + 0.27386I

b = 0.789924 − 0.245115I

3.53660 − 0.14057I −0.86825 − 1.39722I

u = −0.492033 − 0.179262I

a = 1.73174 − 0.27386I

b = 0.789924 + 0.245115I

3.53660 + 0.14057I −0.86825 + 1.39722I

u = −0.365925

a = −1.20803

b = 0.774716

−2.24878 1.74900

u = 0.213495 + 0.279988I

a = 0.805720 + 0.480004I

b = −0.165356 + 0.323439I

−0.160994 − 0.786143I −4.51480 + 8.79169I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.213495 − 0.279988I

a = 0.805720 − 0.480004I

b = −0.165356 − 0.323439I

−0.160994 + 0.786143I −4.51480 − 8.79169I

u = −0.134176

a = 9.11290

b = 1.17072

3.24436 2.13710

II. I

= h−au − u

+ b + u − 1, a

− 4u

+ 2u − 6, u

− u

+ 2u − 1i

(i) Arc colorings















− u + 1





+ 1

− u + 1





−1





au + u

− u + 1





+ 1

− u + 1





−u

+ a − 1





− a + 1

−au





−u

a + au + 2u

− a − 2u + 5





au − u

+ a − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4u

+ 4u − 8

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u + 1)

, c

− 2)

(u − 1)

, c

− u

+ 1)

+ u

+ 2u + 1)

, c

− u

+ 2u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

(y −2)

, c

− y

+ 2y −1)

, c

+ 3y

+ 2y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.215080 + 1.307140I

a = −0.173328 + 1.053390I

b = −2.29165 − 0.74486I

6.31400 − 2.82812I −0.49024 + 2.97945I

u = 0.215080 + 1.307140I

a = 0.173328 − 1.053390I

b = 0.536775 − 0.744862I

6.31400 − 2.82812I −0.49024 + 2.97945I

u = 0.215080 − 1.307140I

a = −0.173328 − 1.053390I

b = −2.29165 + 0.74486I

6.31400 + 2.82812I −0.49024 − 2.97945I

u = 0.215080 − 1.307140I

a = 0.173328 + 1.053390I

b = 0.536775 + 0.744862I

6.31400 + 2.82812I −0.49024 − 2.97945I

u = 0.569840

a = −2.48177

b = −0.659336

2.17641 −7.01950

u = 0.569840

a = 2.48177

b = 2.16909

2.17641 −7.01950

III. I

= h−u

+ b − u − 1, a, u

+ u

+ 2u + 1i

(i) Arc colorings















−u

− u − 1





+ 1

+ u + 1









+ u + 1





−u

− 1

−u

− u − 1





−u

− 1





−u

− 1









−u

− 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −6u

− 4u − 16

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

, c

+ u

− 1

− u

+ 2u − 1

, c

+ u

+ 2u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

− y

+ 2y −1

, c

+ 3y

+ 2y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.215080 + 1.307140I

a = 0

b = −0.877439 + 0.744862I

1.37919 + 2.82812I −5.16553 − 1.85489I

u = −0.215080 − 1.307140I

a = 0

b = −0.877439 − 0.744862I

1.37919 − 2.82812I −5.16553 + 1.85489I

u = −0.569840

a = 0

b = 0.754878

−2.75839 −15.6690

IV. u-Polynomials

Crossings u-Polynomials at each crossing

, c

((u − 1)

)(u + 1)

+ 4u

+ ··· + 51u − 7)

, c

− 2)

− u

+ ··· + 8u − 8)

((u − 1)

)(u + 1)

+ 4u

+ ··· + 51u − 7)

, c

((u

− u

+ 1)

)(u

+ u

− 1)(u

− 2u

+ ··· + 5260u − 481)

− u

+ 2u − 1)(u

+ u

+ 2u + 1)

+ 2u

+ ··· + 8u − 1)

− 2)

+ 3u

+ ··· − 2888u − 5768)

, c

((u

− u

+ 2u − 1)

)(u

+ u

+ 2u + 1)(u

+ 2u

+ ··· + 8u − 1)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y −1)

)(y

− 70y

+ ··· + 423y + 49)

, c

(y −2)

− 65y

+ ··· − 448y + 64)

, c

((y

− y

+ 2y −1)

)(y

− 52y

+ ··· − 1.27595 × 10

y + 231361)

, c

((y

+ 3y

+ 2y −1)

)(y

+ 60y

+ ··· − 62y + 1)

(y −2)

+ 19y

+ ··· − 3.12337 × 10

y + 3.32698 × 10

)