12a

0549

(K12a

0549

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,7

3 1 6 8 4 9 12 10 5 11

, c

Ideals for irreducible components

of X

par

= hu

+ u

+ ··· − 2u

− 1i

* 1 irreducible components of dim

= 0, with total 55 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

= hu

+ u

+ · · · − 2u

− 1i

(i) Arc colorings















−u

+ 1

−u









−u

+ u





−u

+ u

− u

+ 1

−u

+ 2u

− 2u

+ 2u





−u

+ 2u

− 3u

+ 2u

− u

−u

+ u

− 2u

+ u

− u

+ u





−u

+ 3u

− 7u

+ 10u

− 11u

+ 8u

− 4u

+ 1

−u

+ 2u

− 5u

+ 6u

− 7u

+ 6u

− 4u

+ 2u

− u





−u

+ 4u

+ ··· + 4u

− 2u

−u

+ 3u

+ ··· − 3u

+ u





− 8u

+ ··· − 6u

+ u

− 7u

+ ··· + 3u

+ u





− 5u

+ ··· + 3u

+ 1

− 6u

+ ··· + 8u

− u



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

+ 32u

+ ··· + 8u − 2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 17u

+ ··· − 4u + 1

, c

− u

+ ··· + 2u

+ 1

+ u

+ ··· + 1762u + 481

, c

− u

+ ··· + 2u

+ 1

, c

− 7u

+ ··· + 16u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 43y

+ ··· − 36y −1

, c

− 17y

+ ··· − 4y −1

+ 19y

+ ··· − 1037728y −231361

, c

+ 59y

+ ··· − 4y −1

, c

+ 55y

+ ··· − 164y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.684404 + 0.722826I

−5.13814 − 3.11006I −5.81726 + 2.62133I

u = −0.684404 − 0.722826I

−5.13814 + 3.11006I −5.81726 − 2.62133I

u = 1.009300 + 0.073798I

−10.64290 − 3.13922I −13.9620 + 3.8860I

u = 1.009300 − 0.073798I

−10.64290 + 3.13922I −13.9620 − 3.8860I

u = −0.983021 + 0.286921I

−3.79770 − 1.90653I −7.83144 − 0.75410I

u = −0.983021 − 0.286921I

−3.79770 + 1.90653I −7.83144 + 0.75410I

u = 0.999075 + 0.254898I

2.64629 − 0.91628I −4.31373 + 0.57035I

u = 0.999075 − 0.254898I

2.64629 + 0.91628I −4.31373 − 0.57035I

u = 0.739817 + 0.722754I

1.96614 + 1.46324I −2.76292 − 4.72881I

u = 0.739817 − 0.722754I

1.96614 − 1.46324I −2.76292 + 4.72881I

u = −0.954223 + 0.074852I

−3.31630 + 2.07955I −12.7480 − 6.4347I

u = −0.954223 − 0.074852I

−3.31630 − 2.07955I −12.7480 + 6.4347I

u = −1.016950 + 0.234947I

2.48031 + 5.10996I −4.99601 − 6.99986I

u = −1.016950 − 0.234947I

2.48031 − 5.10996I −4.99601 + 6.99986I

u = 1.033440 + 0.219903I

−4.29762 − 8.00514I −8.76672 + 6.36477I

u = 1.033440 − 0.219903I

−4.29762 + 8.00514I −8.76672 − 6.36477I

u = −0.801281 + 0.723501I

3.03409 + 1.48960I 1.90395 − 3.20693I

u = −0.801281 − 0.723501I

3.03409 − 1.48960I 1.90395 + 3.20693I

u = −0.917815 + 0.588074I

−7.81316 + 2.22017I −10.28022 − 2.96610I

u = −0.917815 − 0.588074I

−7.81316 − 2.22017I −10.28022 + 2.96610I

u = 0.882338 + 0.642245I

−0.37050 − 2.49264I −9.18106 + 2.41749I

u = 0.882338 − 0.642245I

−0.37050 + 2.49264I −9.18106 − 2.41749I

u = −0.728948 + 0.842191I

2.71025 − 7.42439I −2.34426 + 3.09843I

u = −0.728948 − 0.842191I

2.71025 + 7.42439I −2.34426 − 3.09843I

u = 0.739346 + 0.840551I

9.51060 + 4.33514I 1.19741 − 3.41520I

u = 0.739346 − 0.840551I

9.51060 − 4.33514I 1.19741 + 3.41520I

u = −0.749884 + 0.838519I

9.70470 + 0.07498I 1.76041 − 2.66320I

u = −0.749884 − 0.838519I

9.70470 − 0.07498I 1.76041 + 2.66320I

u = 0.762609 + 0.836176I

3.32526 − 3.17260I −1.67375 + 2.71266I

u = 0.762609 − 0.836176I

3.32526 + 3.17260I −1.67375 − 2.71266I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.862743

−1.53248 −4.68320

u = 0.869677 + 0.749943I

−1.90030 − 2.83935I −4.00000 + 2.97844I

u = 0.869677 − 0.749943I

−1.90030 + 2.83935I −4.00000 − 2.97844I

u = −0.925150 + 0.708021I

2.65530 + 3.98543I 0

u = −0.925150 − 0.708021I

2.65530 − 3.98543I 0

u = 0.960379 + 0.699146I

1.30494 − 6.91372I 0. + 9.95647I

u = 0.960379 − 0.699146I

1.30494 + 6.91372I 0. − 9.95647I

u = −0.982922 + 0.687300I

−6.01523 + 8.51848I 0

u = −0.982922 − 0.687300I

−6.01523 − 8.51848I 0

u = 0.984888 + 0.763099I

2.63960 − 2.80293I 0

u = 0.984888 − 0.763099I

2.63960 + 2.80293I 0

u = −0.993364 + 0.758698I

8.95425 + 5.89271I 0

u = −0.993364 − 0.758698I

8.95425 − 5.89271I 0

u = 0.999972 + 0.755227I

8.70798 − 10.29670I 0

u = 0.999972 − 0.755227I

8.70798 + 10.29670I 0

u = −1.005970 + 0.751628I

1.85795 + 13.37800I 0

u = −1.005970 − 0.751628I

1.85795 − 13.37800I 0

u = −0.045198 + 0.671804I

−0.81085 + 5.10342I −1.92119 − 3.21301I

u = −0.045198 − 0.671804I

−0.81085 − 5.10342I −1.92119 + 3.21301I

u = 0.014665 + 0.668100I

5.79986 − 2.14204I 1.76494 + 3.28212I

u = 0.014665 − 0.668100I

5.79986 + 2.14204I 1.76494 − 3.28212I

u = −0.311643 + 0.483803I

−6.70011 + 1.72964I −5.80955 − 3.62114I

u = −0.311643 − 0.483803I

−6.70011 − 1.72964I −5.80955 + 3.62114I

u = 0.173894 + 0.333363I

−0.101545 − 0.883584I −2.35912 + 7.80336I

u = 0.173894 − 0.333363I

−0.101545 + 0.883584I −2.35912 − 7.80336I

II. u-Polynomials

Crossings u-Polynomials at each crossing

, c

+ 17u

+ ··· − 4u + 1

, c

− u

+ ··· + 2u

+ 1

+ u

+ ··· + 1762u + 481

, c

− u

+ ··· + 2u

+ 1

, c

− 7u

+ ··· + 16u − 1

III. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 43y

+ ··· − 36y −1

, c

− 17y

+ ··· − 4y −1

+ 19y

+ ··· − 1037728y −231361

, c

+ 59y

+ ··· − 4y −1

, c

+ 55y

+ ··· − 164y −1