12n

0083

(K12n

0083

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,5 3,10

6 1 11 4 7 9 12 8

, c

Ideals for irreducible components

of X

par

= h−7.39937 × 10

− 7.95828 × 10

+ ··· + 9.36658 × 10

b + 4.21903 × 10

− 4.20292 × 10

− 2.34926 × 10

+ ··· + 4.68329 × 10

a + 1.31817 × 10

, u

+ 5u

+ ··· − 7u + 1i

= hu

+ b + u, a, u

+ u

− 1i

= hb

+ 3u

+ b + 5u + 4, a, u

+ u

− 1i

= hb, a + 1, u − 1i

* 4 irreducible components of dim

= 0, with total 72 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.

= h−7.40×10

−7.96×10

+· · ·+9.37×10

b+4.22×10

, −4.20×

−2.35×10

+· · ·+4.68×10

a+1.32×10

, u

+5u

+· · ·−7u+1i

(i) Arc colorings















0.897429u

+ 5.01625u

+ ··· − 31.2394u − 2.81463

0.789976u

+ 8.49647u

+ ··· + 33.8636u − 4.50435





0.284554u

+ 1.83768u

+ ··· − 2.18948u + 3.46404

−0.353321u

− 0.129700u

+ ··· − 1.33250u − 0.387951





−u

+ 1

−u





0.873580u

+ 3.94211u

+ ··· − 25.2656u − 4.12853

1.29842u

+ 10.9238u

+ ··· + 41.7471u − 5.56745









0.834045u

+ 3.97405u

+ ··· − 11.3813u + 4.68603

0.196170u

+ 2.00667u

+ ··· − 10.5243u + 0.834045





0.897429u

+ 5.01625u

+ ··· − 31.2394u − 2.81463

0.271747u

+ 6.65168u

+ ··· + 36.6699u − 5.03346





−0.835301u

− 3.12639u

+ ··· + 14.5834u + 4.37470

−5.11158u

− 24.5806u

+ ··· − 4.66960u + 0.596938





− 1

2.88576u

+ 15.7183u

+ ··· + 14.2886u − 2.18510



(ii) Obstruction class = −1

(iii) Cusp Shapes = 6.52357u

+ 48.3926u

+ ··· + 104.147u − 23.8150

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 35u

+ ··· + 141u + 1

, c

− 5u

+ ··· + 7u + 1

, c

− 4u

+ ··· + 10u − 2

, c

+ 4u

+ ··· + 512u + 512

− 3u

+ ··· + 26312u − 2116

, c

+ 5u

+ ··· + 11u − 1

, c

+ 23u

+ ··· + 261u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 11y

+ ··· − 18829y + 1

, c

− 35y

+ ··· − 141y + 1

, c

+ 18y

+ ··· − 459y

+ 4

, c

+ 48y

+ ··· + 1703936y + 262144

− 47y

+ ··· − 1209188200y + 4477456

, c

− 23y

+ ··· − 261y + 1

, c

+ 37y

+ ··· − 59949y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.174819 + 1.015820I

a = 1.39308 + 0.32509I

b = −0.169145 + 0.123365I

−0.70247 − 10.05410I −8.00000 + 0.I

u = −0.174819 − 1.015820I

a = 1.39308 − 0.32509I

b = −0.169145 − 0.123365I

−0.70247 + 10.05410I −8.00000 + 0.I

u = −0.180060 + 0.947177I

a = −1.40332 − 0.28966I

b = 0.218716 − 0.044373I

0.58990 − 4.34695I −4.42907 + 2.23582I

u = −0.180060 − 0.947177I

a = −1.40332 + 0.28966I

b = 0.218716 + 0.044373I

0.58990 + 4.34695I −4.42907 − 2.23582I

u = 0.008820 + 0.960888I

a = 1.46292 + 0.33775I

b = −0.0127547 − 0.0398138I

−5.70261 − 3.52968I −11.39023 + 3.16583I

u = 0.008820 − 0.960888I

a = 1.46292 − 0.33775I

b = −0.0127547 + 0.0398138I

−5.70261 + 3.52968I −11.39023 − 3.16583I

u = −0.925664 + 0.154080I

a = 1.55623 + 0.95238I

b = 1.16403 + 0.90014I

−3.09925 + 0.70693I −5.36300 − 9.97003I

u = −0.925664 − 0.154080I

a = 1.55623 − 0.95238I

b = 1.16403 − 0.90014I

−3.09925 − 0.70693I −5.36300 + 9.97003I

u = −0.961954 + 0.456687I

a = −0.996485 − 0.482853I

b = −0.773429 − 0.351449I

1.77868 + 2.87670I 0

u = −0.961954 − 0.456687I

a = −0.996485 + 0.482853I

b = −0.773429 + 0.351449I

1.77868 − 2.87670I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.072360 + 0.027388I

a = 0.302091 + 0.387550I

b = −0.44401 + 2.52455I

−2.88487 − 0.32439I 0

u = 1.072360 − 0.027388I

a = 0.302091 − 0.387550I

b = −0.44401 − 2.52455I

−2.88487 + 0.32439I 0

u = 1.026130 + 0.340287I

a = −0.816921 + 0.074019I

b = 0.010122 + 1.005580I

−0.058930 + 1.340430I 0

u = 1.026130 − 0.340287I

a = −0.816921 − 0.074019I

b = 0.010122 − 1.005580I

−0.058930 − 1.340430I 0

u = 0.263341 + 0.858285I

a = 1.45496 + 0.37428I

b = 0.129842 − 0.231061I

−2.48962 + 3.11257I −8.69664 − 2.35415I

u = 0.263341 − 0.858285I

a = 1.45496 − 0.37428I

b = 0.129842 + 0.231061I

−2.48962 − 3.11257I −8.69664 + 2.35415I

u = −0.799508 + 0.362955I

a = 0.895892 − 0.982033I

b = −0.36497 − 1.79872I

3.99898 + 4.77294I −4.23166 − 6.20197I

u = −0.799508 − 0.362955I

a = 0.895892 + 0.982033I

b = −0.36497 + 1.79872I

3.99898 − 4.77294I −4.23166 + 6.20197I

u = 0.871772 + 0.018873I

a = −0.012598 + 0.371703I

b = 0.29638 + 4.67077I

1.75714 − 2.86066I −51.0320 + 5.8085I

u = 0.871772 − 0.018873I

a = −0.012598 − 0.371703I

b = 0.29638 − 4.67077I

1.75714 + 2.86066I −51.0320 − 5.8085I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.896158 + 0.689044I

a = −0.409815 − 0.214201I

b = −0.330845 − 0.132174I

2.20517 + 2.65821I 0

u = −0.896158 − 0.689044I

a = −0.409815 + 0.214201I

b = −0.330845 + 0.132174I

2.20517 − 2.65821I 0

u = 1.129020 + 0.261697I

a = 0.757928 − 0.225431I

b = −0.024907 − 1.263230I

−0.33332 − 3.49089I 0

u = 1.129020 − 0.261697I

a = 0.757928 + 0.225431I

b = −0.024907 + 1.263230I

−0.33332 + 3.49089I 0

u = −1.097400 + 0.397924I

a = 1.239460 + 0.321056I

b = 0.994156 + 0.243940I

0.08735 + 7.90185I 0

u = −1.097400 − 0.397924I

a = 1.239460 − 0.321056I

b = 0.994156 − 0.243940I

0.08735 − 7.90185I 0

u = 0.819617

a = −0.307172

b = 0.434770

−1.19404 −8.40790

u = −0.847597 + 0.872677I

a = 0.347460 − 0.563753I

b = 0.206725 − 0.482515I

5.15087 + 0.64514I 0

u = −0.847597 − 0.872677I

a = 0.347460 + 0.563753I

b = 0.206725 + 0.482515I

5.15087 − 0.64514I 0

u = −0.680841 + 0.367855I

a = −1.112590 + 0.853351I

b = 0.40199 + 1.42776I

4.31390 − 1.39878I −2.91240 + 0.35592I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.680841 − 0.367855I

a = −1.112590 − 0.853351I

b = 0.40199 − 1.42776I

4.31390 + 1.39878I −2.91240 − 0.35592I

u = −0.915257 + 0.866442I

a = −0.468319 + 0.452475I

b = −0.323390 + 0.408101I

4.96004 + 5.72433I 0

u = −0.915257 − 0.866442I

a = −0.468319 − 0.452475I

b = −0.323390 − 0.408101I

4.96004 − 5.72433I 0

u = −1.208710 + 0.423576I

a = 0.149684 − 1.293320I

b = −0.07945 − 2.58390I

−4.51527 + 5.72958I 0

u = −1.208710 − 0.423576I

a = 0.149684 + 1.293320I

b = −0.07945 + 2.58390I

−4.51527 − 5.72958I 0

u = −1.240470 + 0.336251I

a = −0.16206 + 1.41432I

b = 0.04078 + 2.56231I

−7.10231 + 0.65623I 0

u = −1.240470 − 0.336251I

a = −0.16206 − 1.41432I

b = 0.04078 − 2.56231I

−7.10231 − 0.65623I 0

u = 1.176840 + 0.522272I

a = 0.189318 + 1.049630I

b = 0.70577 + 2.17746I

−3.81660 − 2.96163I 0

u = 1.176840 − 0.522272I

a = 0.189318 − 1.049630I

b = 0.70577 − 2.17746I

−3.81660 + 2.96163I 0

u = 0.067472 + 0.687187I

a = −1.57662 − 0.37750I

b = 0.048649 + 0.283986I

−0.89271 − 1.62585I −5.09936 + 3.39490I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.067472 − 0.687187I

a = −1.57662 + 0.37750I

b = 0.048649 − 0.283986I

−0.89271 + 1.62585I −5.09936 − 3.39490I

u = 1.289650 + 0.343544I

a = 0.359603 + 0.917247I

b = 0.58072 + 2.17986I

−4.20310 + 0.00438I 0

u = 1.289650 − 0.343544I

a = 0.359603 − 0.917247I

b = 0.58072 − 2.17986I

−4.20310 − 0.00438I 0

u = 1.204210 + 0.581904I

a = −0.199785 − 1.111010I

b = −0.70126 − 2.14987I

−5.30672 − 8.46798I 0

u = 1.204210 − 0.581904I

a = −0.199785 + 1.111010I

b = −0.70126 + 2.14987I

−5.30672 + 8.46798I 0

u = −1.247410 + 0.558996I

a = −0.008282 − 1.191920I

b = −0.03995 − 2.65434I

−2.68389 + 9.79746I 0

u = −1.247410 − 0.558996I

a = −0.008282 + 1.191920I

b = −0.03995 + 2.65434I

−2.68389 − 9.79746I 0

u = 0.433777 + 0.453147I

a = −1.191930 − 0.656817I

b = −0.050682 + 0.450591I

−1.02754 − 1.38144I −8.05413 + 4.71760I

u = 0.433777 − 0.453147I

a = −1.191930 + 0.656817I

b = −0.050682 − 0.450591I

−1.02754 + 1.38144I −8.05413 − 4.71760I

u = −1.293820 + 0.477820I

a = −0.023615 + 1.302060I

b = 0.04451 + 2.61060I

−9.73955 + 8.61640I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.293820 − 0.477820I

a = −0.023615 − 1.302060I

b = 0.04451 − 2.61060I

−9.73955 − 8.61640I 0

u = −0.315761 + 0.523302I

a = −0.18061 − 1.62642I

b = −0.419756 − 0.854977I

3.48000 + 1.09960I −1.12389 − 2.21841I

u = −0.315761 − 0.523302I

a = −0.18061 + 1.62642I

b = −0.419756 + 0.854977I

3.48000 − 1.09960I −1.12389 + 2.21841I

u = 1.303730 + 0.481258I

a = −0.318337 − 1.050310I

b = −0.65397 − 2.15550I

−9.72761 − 1.62399I 0

u = 1.303730 − 0.481258I

a = −0.318337 + 1.050310I

b = −0.65397 + 2.15550I

−9.72761 + 1.62399I 0

u = −1.274470 + 0.579615I

a = 0.050317 + 1.202790I

b = 0.01989 + 2.64791I

−4.1048 + 15.7750I 0

u = −1.274470 − 0.579615I

a = 0.050317 − 1.202790I

b = 0.01989 − 2.64791I

−4.1048 − 15.7750I 0

u = 1.369400 + 0.350028I

a = −0.430304 − 0.959677I

b = −0.58989 − 2.12605I

−5.80592 + 5.27823I 0

u = 1.369400 − 0.350028I

a = −0.430304 + 0.959677I

b = −0.58989 + 2.12605I

−5.80592 − 5.27823I 0

u = −0.109124 + 0.515994I

a = −0.17301 + 1.83308I

b = 0.531901 + 0.923027I

2.76743 − 4.27360I −2.53028 + 4.40261I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.109124 − 0.515994I

a = −0.17301 − 1.83308I

b = 0.531901 − 0.923027I

2.76743 + 4.27360I −2.53028 − 4.40261I

u = 0.0853866

a = −6.04151

b = 0.733691

−1.41710 −6.18580

II. I

= hu

+ b + u, a, u

+ u

− 1i

(i) Arc colorings















−u

− u









−u

+ 1

−u

− u + 1





−u + 1

−2u









− 1

+ u − 1





−u

− u





− u − 1





− 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

− 11u − 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 2u − 1

, c

+ u

− 1

, c

− u

+ 1

, c

+ u

+ 2u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 2y −1

, c

− y

+ 2y −1

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.877439 + 0.744862I

a = 0

b = 0.662359 + 0.562280I

6.04826 + 5.65624I −0.77833 − 5.57920I

u = −0.877439 − 0.744862I

a = 0

b = 0.662359 − 0.562280I

6.04826 − 5.65624I −0.77833 + 5.57920I

u = 0.754878

a = 0

b = −1.32472

−2.22691 −19.4430

III. I

= hb

+ 3u

+ b + 5u + 4, a, u

+ u

− 1i

(i) Arc colorings























−u

+ 1

−u

− u + 1





b − bu









− 1

+ u − 1









−u

b − 2bu − u

+ 2b − u + 1

−2bu + u

+ 2b + u + 3





− 1

−u

b + 2u

+ b + 3u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 3u

b + 12bu + 9u

− 10b + 14u − 9

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 2u − 1)

, c

+ u

− 1)

, c

− u

+ 1)

, c

+ u

+ 2u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 2y −1)

, c

− y

+ 2y −1)

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.877439 + 0.744862I

a = 0

b = −0.807599 − 0.320410I

6.04826 −1.68265 + 0.98317I

u = −0.877439 + 0.744862I

a = 0

b = −0.192401 + 0.320410I

1.91067 + 2.82812I −17.1302 − 8.6725I

u = −0.877439 − 0.744862I

a = 0

b = −0.807599 + 0.320410I

6.04826 −1.68265 − 0.98317I

u = −0.877439 − 0.744862I

a = 0

b = −0.192401 − 0.320410I

1.91067 − 2.82812I −17.1302 + 8.6725I

u = 0.754878

a = 0

b = −0.50000 + 3.03873I

1.91067 + 2.82812I 6.31282 + 2.33391I

u = 0.754878

a = 0

b = −0.50000 − 3.03873I

1.91067 − 2.82812I 6.31282 − 2.33391I

IV. I

= hb, a + 1, u − 1i

(i) Arc colorings















−1









−1





−1













−1





−1

−2







(ii) Obstruction class = 1

(iii) Cusp Shapes = −12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u − 1

, c

u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y −1

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = −1.00000

b = 0

−3.28987 −12.0000

V. u-Polynomials

Crossings u-Polynomials at each crossing

(u − 1)(u

− u

+ 2u − 1)

+ 35u

+ ··· + 141u + 1)

(u − 1)(u

+ u

− 1)

− 5u

+ ··· + 7u + 1)

u(u

− u

+ 2u − 1)

− 4u

+ ··· + 10u − 2)

(u + 1)(u

− u

+ 1)

− 5u

+ ··· + 7u + 1)

(u − 1)(u

+ 4u

+ ··· + 512u + 512)

u(u

+ u

+ 2u + 1)

− 4u

+ ··· + 10u − 2)

(u − 1)(u

− u

+ 2u − 1)

− 3u

+ ··· + 26312u − 2116)

(u − 1)(u

+ u

− 1)

+ 5u

+ ··· + 11u − 1)

(u + 1)(u

+ 4u

+ ··· + 512u + 512)

(u − 1)(u

− u

+ 2u − 1)

+ 23u

+ ··· + 261u + 1)

(u + 1)(u

− u

+ 1)

+ 5u

+ ··· + 11u − 1)

(u + 1)(u

+ u

+ 2u + 1)

+ 23u

+ ··· + 261u + 1)

VI. Riley Polynomials

Crossings Riley Polynomials at each crossing

(y −1)(y

+ 3y

+ 2y −1)

− 11y

+ ··· − 18829y + 1)

, c

(y −1)(y

− y

+ 2y −1)

− 35y

+ ··· − 141y + 1)

, c

y(y

+ 3y

+ 2y −1)

+ 18y

+ ··· − 459y

+ 4)

, c

(y −1)(y

+ 48y

+ ··· + 1703936y + 262144)

(y −1)(y

+ 3y

+ 2y −1)

· (y

− 47y

+ ··· − 1209188200y + 4477456)

, c

(y −1)(y

− y

+ 2y −1)

− 23y

+ ··· − 261y + 1)

, c

(y −1)(y

+ 3y

+ 2y −1)

+ 37y

+ ··· − 59949y + 1)