12a

0764

(K12a

0764

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,9

8 3 1 7 10 4 6 11 12 5

, c

Ideals for irreducible components

of X

par

= hu

− u

+ ··· − u − 1i

* 1 irreducible components of dim

= 0, with total 66 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

+ · · · − u − 1i

(i) Arc colorings















+ u





+ u





+ 1





+ u

+ 1





−u

− 2u

− 4u

− 3u

−u

− u

− 2u

− u

+ u





−u

− u

− 2u

− u

+ u

+ 1

−u

− 2u

− 4u

− 3u





+ 3u

+ ··· + u

+ 1

+ 4u

+ ··· + 12u

+ u





+ 4u

+ ··· + 12u

+ u

+ 3u

+ ··· + u

+ u





−u

− 8u

+ ··· − 6u

− u

−u

+ u

+ ··· − u − 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

+ 32u

+ ··· − 16u − 14

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 17u

+ ··· + u + 1

, c

− u

+ ··· − u − 1

, c

− u

+ ··· − 36u − 40

, c

+ u

+ ··· − 3u − 1

, c

− 3u

+ ··· + 3u + 3

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 65y

+ ··· − 31y + 1

, c

+ 17y

+ ··· + y + 1

, c

− 35y

+ ··· − 32496y + 1600

, c

− 55y

+ ··· + y + 1

, c

+ 37y

+ ··· − 3y + 9

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.207533 + 0.981086I

−6.35096 + 4.33929I −15.3912 − 1.6731I

u = −0.207533 − 0.981086I

−6.35096 − 4.33929I −15.3912 + 1.6731I

u = −0.322302 + 0.940128I

−3.57030 − 2.48361I −12.14309 + 4.22745I

u = −0.322302 − 0.940128I

−3.57030 + 2.48361I −12.14309 − 4.22745I

u = −0.272653 + 0.940034I

−3.76345 − 2.65206I −14.2785 + 5.3930I

u = −0.272653 − 0.940034I

−3.76345 + 2.65206I −14.2785 − 5.3930I

u = 0.208676 + 0.955825I

−1.57258 − 0.64572I −10.64970 + 0.22730I

u = 0.208676 − 0.955825I

−1.57258 + 0.64572I −10.64970 − 0.22730I

u = 0.271816 + 0.990028I

−10.11990 + 2.95711I −17.8433 − 4.0853I

u = 0.271816 − 0.990028I

−10.11990 − 2.95711I −17.8433 + 4.0853I

u = 0.327602 + 0.976374I

−0.88010 + 6.28741I −8.00000 − 7.78129I

u = 0.327602 − 0.976374I

−0.88010 − 6.28741I −8.00000 + 7.78129I

u = −0.326605 + 0.991495I

−5.65622 − 10.20650I −13.5289 + 9.0267I

u = −0.326605 − 0.991495I

−5.65622 + 10.20650I −13.5289 − 9.0267I

u = 0.757467 + 0.819779I

−0.27528 + 5.62378I 0

u = 0.757467 − 0.819779I

−0.27528 − 5.62378I 0

u = 0.524653 + 0.709653I

−0.64902 + 5.65149I −7.27056 − 7.50619I

u = 0.524653 − 0.709653I

−0.64902 − 5.65149I −7.27056 + 7.50619I

u = −0.136824 + 0.865327I

−4.39217 − 2.36691I −15.8873 + 4.0107I

u = −0.136824 − 0.865327I

−4.39217 + 2.36691I −15.8873 − 4.0107I

u = −0.832435 + 0.793863I

−3.01879 + 1.47388I 0

u = −0.832435 − 0.793863I

−3.01879 − 1.47388I 0

u = −0.796593 + 0.845883I

4.46763 − 2.52307I 0

u = −0.796593 − 0.845883I

4.46763 + 2.52307I 0

u = 0.829323 + 0.823308I

3.15412 − 0.61109I 0

u = 0.829323 − 0.823308I

3.15412 + 0.61109I 0

u = 0.866881 + 0.806451I

2.07449 − 8.47396I 0

u = 0.866881 − 0.806451I

2.07449 + 8.47396I 0

u = −0.863745 + 0.813119I

6.79180 + 4.40102I 0

u = −0.863745 − 0.813119I

6.79180 − 4.40102I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.514926 + 0.629940I

3.49483 − 1.91824I −1.30925 + 4.40205I

u = −0.514926 − 0.629940I

3.49483 + 1.91824I −1.30925 − 4.40205I

u = 0.857102 + 0.823493I

3.93034 − 0.31479I 0

u = 0.857102 − 0.823493I

3.93034 + 0.31479I 0

u = 0.752368 + 0.941982I

−0.652984 + 0.115352I 0

u = 0.752368 − 0.941982I

−0.652984 − 0.115352I 0

u = −0.774741 + 0.932829I

4.19655 − 3.39080I 0

u = −0.774741 − 0.932829I

4.19655 + 3.39080I 0

u = −0.849189 + 0.896624I

6.84678 + 0.99588I 0

u = −0.849189 − 0.896624I

6.84678 − 0.99588I 0

u = 0.845586 + 0.905987I

10.71050 + 3.14132I 0

u = 0.845586 − 0.905987I

10.71050 − 3.14132I 0

u = 0.789852 + 0.955570I

2.74573 + 6.66729I 0

u = 0.789852 − 0.955570I

2.74573 − 6.66729I 0

u = −0.842344 + 0.915164I

6.78882 − 7.27941I 0

u = −0.842344 − 0.915164I

6.78882 + 7.27941I 0

u = 0.519959 + 0.546372I

−0.16044 − 1.78515I −5.05685 + 0.I

u = 0.519959 − 0.546372I

−0.16044 + 1.78515I −5.05685 + 0.I

u = −0.779938 + 0.972264I

−3.56585 − 7.50384I 0

u = −0.779938 − 0.972264I

−3.56585 + 7.50384I 0

u = 0.804861 + 0.967797I

3.47971 + 6.50090I 0

u = 0.804861 − 0.967797I

3.47971 − 6.50090I 0

u = −0.803690 + 0.976805I

6.28091 − 10.60210I 0

u = −0.803690 − 0.976805I

6.28091 + 10.60210I 0

u = 0.802049 + 0.981776I

1.5273 + 14.6781I 0

u = 0.802049 − 0.981776I

1.5273 − 14.6781I 0

u = −0.629766 + 0.121194I

−2.95160 + 6.83126I −7.61691 − 5.02881I

u = −0.629766 − 0.121194I

−2.95160 − 6.83126I −7.61691 + 5.02881I

u = 0.175327 + 0.613584I

−0.378995 + 0.828694I −8.44183 − 8.08874I

u = 0.175327 − 0.613584I

−0.378995 − 0.828694I −8.44183 + 8.08874I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.599127 + 0.137206I

1.69680 − 2.97772I −2.56592 + 3.49038I

u = 0.599127 − 0.137206I

1.69680 + 2.97772I −2.56592 − 3.49038I

u = 0.614002

−7.09939 −11.6040

u = −0.541100 + 0.190827I

−1.30250 − 0.68240I −5.55669 + 0.60358I

u = −0.541100 − 0.190827I

−1.30250 + 0.68240I −5.55669 − 0.60358I

u = −0.490541

−1.14219 −8.66240

II. u-Polynomials

Crossings u-Polynomials at each crossing

, c

+ 17u

+ ··· + u + 1

, c

− u

+ ··· − u − 1

, c

− u

+ ··· − 36u − 40

, c

+ u

+ ··· − 3u − 1

, c

− 3u

+ ··· + 3u + 3

III. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 65y

+ ··· − 31y + 1

, c

+ 17y

+ ··· + y + 1

, c

− 35y

+ ··· − 32496y + 1600

, c

− 55y

+ ··· + y + 1

, c

+ 37y

+ ··· − 3y + 9