12a

0462

(K12a

0462

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

3,11 4,6

2 7 5 1 10 12 9 8

, c

Ideals for irreducible components

of X

par

= h2.55777 × 10

154

+ 1.33040 × 10

154

+ ··· + 1.37278 × 10

154

b − 6.08647 × 10

155

4.05262 × 10

155

+ 2.19316 × 10

156

+ ··· + 3.02011 × 10

155

a + 5.78829 × 10

157

+ 2u

+ ··· + 128u + 32i

= hb, u

+ u

+ a + u, u

− u

+ 2u

− u

+ u − 1i

= ha, −2v

+ v

+ 3v

+ b − 6v + 2, v

− v

+ 4v

− 3v + 1i

* 3 irreducible components of dim

= 0, with total 98 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

= h2.56 × 10

154

+ 1.33 × 10

154

+ · · · + 1.37 × 10

154

b − 6.09 ×

155

, 4.05 × 10

155

+ 2.19 × 10

156

+ · · · + 3.02 × 10

155

a + 5.79 ×

157

, u

+ 2u

+ · · · + 128u + 32i

(i) Arc colorings















−1.34188u

− 7.26185u

+ ··· − 648.536u − 191.658

−1.86321u

− 0.969132u

+ ··· + 62.2360u + 44.3369





3.04936u

+ 5.94300u

+ ··· + 329.238u + 75.2429

−1.43574u

− 2.17821u

+ ··· − 23.2178u + 6.62152





−4.53882u

− 7.84119u

+ ··· − 388.579u − 74.4637

1.02928u

− 2.25200u

+ ··· − 369.905u − 130.560





−0.0781229u

+ 1.92398u

+ ··· + 185.114u + 62.4308

−0.503789u

− 3.88549u

+ ··· − 424.089u − 133.649





1.61362u

+ 3.76479u

+ ··· + 306.020u + 81.8645

−1.43574u

− 2.17821u

+ ··· − 23.2178u + 6.62152





+ u





+ u





−1.55260u

− 6.01547u

+ ··· − 445.753u − 125.053

1.59435u

+ 2.04652u

+ ··· + 133.630u + 23.9040





−3.04936u

− 5.94300u

+ ··· − 329.238u − 75.2429

1.61315u

+ 1.25714u

+ ··· + 54.4288u + 1.63829



(ii) Obstruction class = −1

(iii) Cusp Shapes = 3.28609u

+ 5.01107u

+ ··· + 173.927u + 44.2883

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 36u

+ ··· + 3584u + 1024

, c

− 2u

+ ··· − 128u + 32

, c

+ 2u

+ ··· + 128u + 32

, c

− 7u

+ ··· + 9u − 1

, c

+ 7u

+ ··· − 9u − 1

− 36u

+ ··· − 3584u + 1024

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 24y

+ ··· − 66715648y + 1048576

, c

+ 36y

+ ··· + 3584y + 1024

, c

− 77y

+ ··· − 57y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.395995 + 0.919848I

a = 2.65099 − 0.04295I

b = −0.586527 − 0.945687I

2.26153 + 3.00983I 0

u = −0.395995 − 0.919848I

a = 2.65099 + 0.04295I

b = −0.586527 + 0.945687I

2.26153 − 3.00983I 0

u = −0.404116 + 0.907512I

a = −0.395066 − 0.612626I

b = 0.361388 − 1.098660I

2.25457 + 0.19023I 0

u = −0.404116 − 0.907512I

a = −0.395066 + 0.612626I

b = 0.361388 + 1.098660I

2.25457 − 0.19023I 0

u = −0.886787 + 0.438676I

a = 0.282546 + 1.241530I

b = −0.415238 + 0.812588I

0.69474 − 1.25403I 0

u = −0.886787 − 0.438676I

a = 0.282546 − 1.241530I

b = −0.415238 − 0.812588I

0.69474 + 1.25403I 0

u = 0.812254 + 0.547196I

a = 0.436136 − 0.137542I

b = −0.616284 − 1.184160I

−6.80158 + 6.33791I 0

u = 0.812254 − 0.547196I

a = 0.436136 + 0.137542I

b = −0.616284 + 1.184160I

−6.80158 − 6.33791I 0

u = 0.474341 + 0.926493I

a = 1.015950 + 0.235751I

b = −1.123980 + 0.220654I

−0.22584 − 2.46461I 0

u = 0.474341 − 0.926493I

a = 1.015950 − 0.235751I

b = −1.123980 − 0.220654I

−0.22584 + 2.46461I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.625512 + 0.717766I

a = −0.175517 − 1.114280I

b = −0.159287 − 0.924776I

−2.96877 − 1.76029I 0

u = 0.625512 − 0.717766I

a = −0.175517 + 1.114280I

b = −0.159287 + 0.924776I

−2.96877 + 1.76029I 0

u = 0.995359 + 0.339245I

a = −0.580860 − 0.374909I

b = 0.678568 − 0.640826I

4.14234 + 0.58263I 0

u = 0.995359 − 0.339245I

a = −0.580860 + 0.374909I

b = 0.678568 + 0.640826I

4.14234 − 0.58263I 0

u = 0.159287 + 0.924776I

a = 1.36498 + 1.59127I

b = −0.625512 − 0.717766I

2.96877 + 1.76029I 0

u = 0.159287 − 0.924776I

a = 1.36498 − 1.59127I

b = −0.625512 + 0.717766I

2.96877 − 1.76029I 0

u = −0.678568 + 0.640826I

a = 1.063540 − 0.436699I

b = −0.995359 − 0.339245I

−4.14234 − 0.58263I 0

u = −0.678568 − 0.640826I

a = 1.063540 + 0.436699I

b = −0.995359 + 0.339245I

−4.14234 + 0.58263I 0

u = 0.073976 + 1.077970I

a = −1.08508 − 1.73052I

b = 0.521667 + 0.977886I

−1.30307 + 4.99629I 0

u = 0.073976 − 1.077970I

a = −1.08508 + 1.73052I

b = 0.521667 − 0.977886I

−1.30307 − 4.99629I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.958984 + 0.503942I

a = 0.926029 + 0.597774I

b = −0.958984 + 0.503942I

3.72374I 0

u = 0.958984 − 0.503942I

a = 0.926029 − 0.597774I

b = −0.958984 − 0.503942I

− 3.72374I 0

u = 0.415238 + 0.812588I

a = −1.44367 − 1.70184I

b = 0.886787 + 0.438676I

−0.69474 − 1.25403I 0

u = 0.415238 − 0.812588I

a = −1.44367 + 1.70184I

b = 0.886787 − 0.438676I

−0.69474 + 1.25403I 0

u = 0.702985 + 0.565831I

a = −0.460163 + 0.540285I

b = 0.495675 + 0.994508I

−1.40784 + 2.54267I −3.45686 − 3.29238I

u = 0.702985 − 0.565831I

a = −0.460163 − 0.540285I

b = 0.495675 − 0.994508I

−1.40784 − 2.54267I −3.45686 + 3.29238I

u = −0.521667 + 0.977886I

a = −0.200965 + 0.894250I

b = −0.073976 + 1.077970I

1.30307 + 4.99629I 0

u = −0.521667 − 0.977886I

a = −0.200965 − 0.894250I

b = −0.073976 − 1.077970I

1.30307 − 4.99629I 0

u = −0.495675 + 0.994508I

a = 0.546599 − 1.120560I

b = −0.702985 + 0.565831I

1.40784 + 2.54267I 0

u = −0.495675 − 0.994508I

a = 0.546599 + 1.120560I

b = −0.702985 − 0.565831I

1.40784 − 2.54267I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.798601 + 0.772998I

a = 1.096920 − 0.166790I

b = 0.033875 − 1.258740I

−6.87603 − 1.37349I 0

u = −0.798601 − 0.772998I

a = 1.096920 + 0.166790I

b = 0.033875 + 1.258740I

−6.87603 + 1.37349I 0

u = 0.586527 + 0.945687I

a = −1.79270 − 1.01470I

b = 0.395995 − 0.919848I

−2.26153 − 3.00983I 0

u = 0.586527 − 0.945687I

a = −1.79270 + 1.01470I

b = 0.395995 + 0.919848I

−2.26153 + 3.00983I 0

u = −0.471722 + 1.010740I

a = −2.48364 − 0.23893I

b = 0.651889 + 1.129260I

−2.77315 + 6.92377I 0

u = −0.471722 − 1.010740I

a = −2.48364 + 0.23893I

b = 0.651889 − 1.129260I

−2.77315 − 6.92377I 0

u = −1.021560 + 0.502568I

a = −0.452502 − 0.480269I

b = 0.617119 − 0.992602I

3.07312 − 5.61606I 0

u = −1.021560 − 0.502568I

a = −0.452502 + 0.480269I

b = 0.617119 + 0.992602I

3.07312 + 5.61606I 0

u = 1.123980 + 0.220654I

a = 0.425729 + 0.019981I

b = −0.474341 + 0.926493I

0.22584 − 2.46461I 0

u = 1.123980 − 0.220654I

a = 0.425729 − 0.019981I

b = −0.474341 − 0.926493I

0.22584 + 2.46461I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.769853 + 0.852318I

a = 0.864593 + 0.257379I

b = −0.066555 + 1.321620I

−10.45800 − 2.88090I 0

u = 0.769853 − 0.852318I

a = 0.864593 − 0.257379I

b = −0.066555 − 1.321620I

−10.45800 + 2.88090I 0

u = −0.361388 + 1.098660I

a = −0.11965 + 1.46530I

b = 0.404116 − 0.907512I

−2.25457 − 0.19023I 0

u = −0.361388 − 1.098660I

a = −0.11965 − 1.46530I

b = 0.404116 + 0.907512I

−2.25457 + 0.19023I 0

u = −0.358618 + 0.763180I

a = 0.471283 + 0.174177I

b = −0.537085 + 1.290420I

−3.83566 − 3.43814I 0.61318 − 1.44912I

u = −0.358618 − 0.763180I

a = 0.471283 − 0.174177I

b = −0.537085 − 1.290420I

−3.83566 + 3.43814I 0.61318 + 1.44912I

u = −0.684043 + 0.947304I

a = 0.721420 − 0.287781I

b = −0.157119 − 1.376880I

−6.29574 + 6.95849I 0

u = −0.684043 − 0.947304I

a = 0.721420 + 0.287781I

b = −0.157119 + 1.376880I

−6.29574 − 6.95849I 0

u = −0.617119 + 0.992602I

a = −0.89496 + 1.13273I

b = 1.021560 − 0.502568I

−3.07312 + 5.61606I 0

u = −0.617119 − 0.992602I

a = −0.89496 − 1.13273I

b = 1.021560 + 0.502568I

−3.07312 − 5.61606I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.443550 + 1.114320I

a = −0.636408 − 0.138775I

b = 0.637561 − 0.134384I

5.24580 − 3.85196I 0

u = 0.443550 − 1.114320I

a = −0.636408 + 0.138775I

b = 0.637561 + 0.134384I

5.24580 + 3.85196I 0

u = 0.613830 + 1.034560I

a = 2.09577 + 0.54409I

b = −0.613830 + 1.034560I

− 7.63074I 0

u = 0.613830 − 1.034560I

a = 2.09577 − 0.54409I

b = −0.613830 − 1.034560I

7.63074I 0

u = −0.365401 + 0.697232I

a = −0.790767 + 0.184744I

b = 0.430621 + 0.240473I

0.192499 + 1.200880I 3.44276 − 4.83413I

u = −0.365401 − 0.697232I

a = −0.790767 − 0.184744I

b = 0.430621 − 0.240473I

0.192499 − 1.200880I 3.44276 + 4.83413I

u = −1.078720 + 0.561603I

a = 0.410171 + 0.130932I

b = −0.687566 + 1.140520I

−1.99246 − 9.73563I 0

u = −1.078720 − 0.561603I

a = 0.410171 − 0.130932I

b = −0.687566 − 1.140520I

−1.99246 + 9.73563I 0

u = −0.033875 + 1.258740I

a = −1.59344 + 0.20088I

b = 0.798601 − 0.772998I

6.87603 + 1.37349I 0

u = −0.033875 − 1.258740I

a = −1.59344 − 0.20088I

b = 0.798601 + 0.772998I

6.87603 − 1.37349I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.655409 + 1.077200I

a = −2.11903 − 0.25132I

b = 0.703968 − 1.167180I

−5.18587 − 11.86060I 0

u = 0.655409 − 1.077200I

a = −2.11903 + 0.25132I

b = 0.703968 + 1.167180I

−5.18587 + 11.86060I 0

u = −0.119816 + 0.724230I

a = −3.31363 + 0.21378I

b = 0.496811 + 0.533389I

−0.110831 − 0.799402I 3.78510 − 2.23405I

u = −0.119816 − 0.724230I

a = −3.31363 − 0.21378I

b = 0.496811 − 0.533389I

−0.110831 + 0.799402I 3.78510 + 2.23405I

u = −0.496811 + 0.533389I

a = −2.32822 + 1.78680I

b = 0.119816 + 0.724230I

0.110831 − 0.799402I −3.78510 − 2.23405I

u = −0.496811 − 0.533389I

a = −2.32822 − 1.78680I

b = 0.119816 − 0.724230I

0.110831 + 0.799402I −3.78510 + 2.23405I

u = −0.651889 + 1.129260I

a = −1.52240 + 0.84713I

b = 0.471722 + 1.010740I

2.77315 + 6.92377I 0

u = −0.651889 − 1.129260I

a = −1.52240 − 0.84713I

b = 0.471722 − 1.010740I

2.77315 − 6.92377I 0

u = 0.066555 + 1.321620I

a = 1.45861 − 0.47999I

b = −0.769853 + 0.852318I

10.45800 − 2.88090I 0

u = 0.066555 − 1.321620I

a = 1.45861 + 0.47999I

b = −0.769853 − 0.852318I

10.45800 + 2.88090I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.687566 + 1.140520I

a = −0.821367 − 0.858877I

b = 1.078720 + 0.561603I

1.99246 − 9.73563I 0

u = 0.687566 − 1.140520I

a = −0.821367 + 0.858877I

b = 1.078720 − 0.561603I

1.99246 + 9.73563I 0

u = 0.616284 + 1.184160I

a = 0.579368 + 0.788710I

b = −0.812254 − 0.547196I

6.80158 − 6.33791I 0

u = 0.616284 − 1.184160I

a = 0.579368 − 0.788710I

b = −0.812254 + 0.547196I

6.80158 + 6.33791I 0

u = −0.637561 + 0.134384I

a = 0.495827 − 0.083510I

b = −0.443550 − 1.114320I

−5.24580 + 3.85196I −8.95635 − 3.01207I

u = −0.637561 − 0.134384I

a = 0.495827 + 0.083510I

b = −0.443550 + 1.114320I

−5.24580 − 3.85196I −8.95635 + 3.01207I

u = 0.645090

a = −0.735762

b = −0.330483

2.22439 4.34230

u = −0.703968 + 1.167180I

a = 1.76924 − 0.55256I

b = −0.655409 − 1.077200I

5.18587 + 11.86060I 0

u = −0.703968 − 1.167180I

a = 1.76924 + 0.55256I

b = −0.655409 + 1.077200I

5.18587 − 11.86060I 0

u = 0.157119 + 1.376880I

a = −1.29707 + 0.71694I

b = 0.684043 − 0.947304I

6.29574 − 6.95849I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.157119 − 1.376880I

a = −1.29707 − 0.71694I

b = 0.684043 + 0.947304I

6.29574 + 6.95849I 0

u = −0.748964 + 1.177590I

a = −1.81834 + 0.32952I

b = 0.748964 + 1.177590I

16.3231I 0

u = −0.748964 − 1.177590I

a = −1.81834 − 0.32952I

b = 0.748964 − 1.177590I

− 16.3231I 0

u = 0.537085 + 1.290420I

a = −0.079296 − 0.880909I

b = 0.358618 + 0.763180I

3.83566 − 3.43814I 0

u = 0.537085 − 1.290420I

a = −0.079296 + 0.880909I

b = 0.358618 − 0.763180I

3.83566 + 3.43814I 0

u = −0.430621 + 0.240473I

a = −0.693685 + 0.556563I

b = 0.365401 + 0.697232I

−0.192499 + 1.200880I −3.44276 − 4.83413I

u = −0.430621 − 0.240473I

a = −0.693685 − 0.556563I

b = 0.365401 − 0.697232I

−0.192499 − 1.200880I −3.44276 + 4.83413I

u = 0.330483

a = 2.08127

b = −0.645090

−2.22439 −4.34230

II. I

= hb, u

+ u

+ a + u, u

− u

+ 2u

− u

+ u − 1i

(i) Arc colorings















−u

− u









−u

− u





−u

− u

− u + 1









+ u





− u

+ u

+ 1





−u

+ u





−1

−u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

− 3u

+ u

− 3u

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 2u

− u

+ u − 1

, c

(u − 1)

(u + 1)

, c

− u

− 2u

+ u

+ u + 1

+ u

+ 2u

+ u

+ u + 1

− 3u

+ 4u

− u

− u + 1

+ u

− 2u

− u

+ u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 4y

+ y

− y −1

, c

(y −1)

, c

− 5y

+ 8y

− 3y

− y −1

− y

+ 8y

− 3y

+ 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.339110 + 0.822375I

a = 0.896438 − 0.890762I

b = 0

−1.31583 + 1.53058I −1.49901 − 3.45976I

u = −0.339110 − 0.822375I

a = 0.896438 + 0.890762I

b = 0

−1.31583 − 1.53058I −1.49901 + 3.45976I

u = 0.766826

a = −1.70062

b = 0

0.756147 −3.75670

u = 0.455697 + 1.200150I

a = 0.453870 + 0.402731I

b = 0

4.22763 − 4.40083I 2.37737 + 5.82971I

u = 0.455697 − 1.200150I

a = 0.453870 − 0.402731I

b = 0

4.22763 + 4.40083I 2.37737 − 5.82971I

III. I

= ha, −2v

+ v

+ 3v

+ b − 6v + 2, v

− v

+ 4v

− 3v + 1i

(i) Arc colorings















− v

− 3v

+ 6v − 2





− v

+ 4v − 3





− v

− 3v

+ 6v − 2

−v

+ v − 2





−2v

+ v

+ 3v

− 7v + 3

− 2v + 3





− v

+ 4v − 2

− v

+ 4v − 3













−v

+ v

− 3v + 2

−v

+ v

− 4v + 3





−v

+ v

− 4v + 2

−v

+ v

− 4v + 3



(ii) Obstruction class = 1

(iii) Cusp Shapes = −7v

+ 2v

+ 9v

− 23v + 7

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 3u

+ 4u

− u

− u + 1

− u

+ 2u

− u

+ u − 1

, c

+ u

− 2u

− u

+ u − 1

+ u

+ 2u

+ u

+ u + 1

− u

− 2u

+ u

+ u + 1

, c

(u + 1)

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− y

+ 8y

− 3y

+ 3y − 1

, c

+ 3y

+ 4y

+ y

− y − 1

, c

− 5y

+ 8y

− 3y

− y − 1

, c

(y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 0.896438 + 0.890762I

a = 0

b = −0.339110 − 0.822375I

1.31583 + 1.53058I 1.49901 − 3.45976I

v = 0.896438 − 0.890762I

a = 0

b = −0.339110 + 0.822375I

1.31583 − 1.53058I 1.49901 + 3.45976I

v = 0.453870 + 0.402731I

a = 0

b = 0.455697 + 1.200150I

−4.22763 + 4.40083I −2.37737 − 5.82971I

v = 0.453870 − 0.402731I

a = 0

b = 0.455697 − 1.200150I

−4.22763 − 4.40083I −2.37737 + 5.82971I

v = −1.70062

a = 0

b = 0.766826

−0.756147 3.75670

IV. u-Polynomials

Crossings u-Polynomials at each crossing

− 3u

+ ··· − u + 1)(u

+ 36u

+ ··· + 3584u + 1024)

− u

+ ··· + u − 1)(u

− 2u

+ ··· − 128u + 32)

− u

+ ··· + u − 1)(u

+ 2u

+ ··· + 128u + 32)

, c

((u − 1)

)(u

+ u

+ ··· + u − 1)(u

− 7u

+ ··· + 9u − 1)

+ u

+ ··· + u + 1)(u

− 2u

+ ··· − 128u + 32)

((u + 1)

)(u

− u

+ ··· + u + 1)(u

− 7u

+ ··· + 9u − 1)

, c

((u + 1)

)(u

− u

+ ··· + u + 1)(u

+ 7u

+ ··· − 9u − 1)

+ u

+ ··· + u + 1)(u

+ 2u

+ ··· + 128u + 32)

− 3u

+ ··· − u + 1)(u

− 36u

+ ··· − 3584u + 1024)

((u − 1)

)(u

+ u

+ ··· + u − 1)(u

+ 7u

+ ··· − 9u − 1)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

− y

+ 8y

− 3y

+ 3y − 1)

· (y

+ 24y

+ ··· − 66715648y + 1048576)

, c

+ 3y

+ ··· − y − 1)(y

+ 36y

+ ··· + 3584y + 1024)

, c

((y − 1)

)(y

− 5y

+ ··· − y − 1)(y

− 77y

+ ··· − 57y + 1)