9

17

(K9a

14

)

A knot diagram

1

Linearized knot diagam

5 7 9 1 2 3 6 4 8

Solving Sequence

2,7

3 6 8 5 1 4 9

c

2

c

6

c

7

c

5

c

1

c

4

c

9

c

3

, c

8

Ideals for irreducible components

2

of X

par

I

u

1

= hu

7

+ 2u

5

− u

4

+ 2u

3

− u

2

− 1i

I

u

2

= hu

12

+ u

11

+ 4u

10

+ 4u

9

+ 7u

8

+ 7u

7

+ 5u

6

+ 5u

5

+ u

4

+ u

3

+ 1i

* 2 irreducible components of dim

C

= 0, with total 19 representations.

1

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).

2

All coeﬃcients of polynomials are rational numbers. But the coeﬃcients are sometimes approximated

in decimal forms when there is not enough margin.

1

I. I

u

1

= hu

7

+ 2u

5

− u

4

+ 2u

3

− u

2

− 1i

(i) Arc colorings

a

2

=



1

0



a

7

=



0

u



a

3

=



1

−u

2



a

6

=



−u

u

3

+ u



a

8

=



−u

3

u

5

+ u

3

+ u



a

5

=



u

3

u

3

+ u



a

1

=



−u

6

− u

4

+ 1

−u

6

− 2u

4

− u

2



a

4

=



−u

6

+ u

5

− u

4

+ 2u

3

− u

2

+ u

−u

6

+ u

5

− 2u

4

+ 2u

3

− 2u

2

+ u − 1



a

9

=



−u

6

− u

5

− u

4

+ 1

−u

6

− u

5

− u

4

− u

3

+ 1



a

9

=



−u

6

− u

5

− u

4

+ 1

−u

6

− u

5

− u

4

− u

3

+ 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

6

+ 4u

5

− 4u

4

+ 8u

3

− 8u

2

+ 4u − 2

2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

4

, c

5

u

7

+ 3u

6

+ u

5

− 2u

4

+ 2u

3

+ 3u

2

+ u + 2

c

2

, c

3

, c

6

c

8

u

7

+ 2u

5

+ u

4

+ 2u

3

+ u

2

+ 1

c

7

, c

9

u

7

+ 4u

6

+ 8u

5

+ 7u

4

+ 2u

3

− 3u

2

− 2u − 1

3

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

4

, c

5

y

7

− 7y

6

+ 17y

5

− 16y

4

+ 6y

3

+ 3y

2

− 11y −4

c

2

, c

3

, c

6

c

8

y

7

+ 4y

6

+ 8y

5

+ 7y

4

+ 2y

3

− 3y

2

− 2y −1

c

7

, c

9

y

7

+ 12y

5

+ 3y

4

+ 22y

3

− 3y

2

− 2y −1

4

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

1

√

−1(vol +

√

−1CS) Cusp shape

u = 0.468927 + 1.008510I

−2.15041 + 6.00484I −4.26608 − 8.08638I

u = 0.468927 − 1.008510I

−2.15041 − 6.00484I −4.26608 + 8.08638I

u = 0.824481

−3.34763 −1.23740

u = −0.391915 + 0.631080I

0.40799 − 1.46776I 1.41234 + 4.85424I

u = −0.391915 − 0.631080I

0.40799 + 1.46776I 1.41234 − 4.85424I

u = −0.489252 + 1.239920I

−10.5657 − 9.4746I −7.52754 + 6.21855I

u = −0.489252 − 1.239920I

−10.5657 + 9.4746I −7.52754 − 6.21855I

5

II. I

u

2

= hu

12

+ u

11

+ 4u

10

+ 4u

9

+ 7u

8

+ 7u

7

+ 5u

6

+ 5u

5

+ u

4

+ u

3

+ 1i

(i) Arc colorings

a

2

=



1

0



a

7

=



0

u



a

3

=



1

−u

2



a

6

=



−u

u

3

+ u



a

8

=



−u

3

u

5

+ u

3

+ u



a

5

=



u

3

u

3

+ u



a

1

=



−u

6

− u

4

+ 1

−u

6

− 2u

4

− u

2



a

4

=



−u

9

− 2u

7

− u

5

+ 2u

3

+ u

−u

9

− 3u

7

− 3u

5

+ u



a

9

=



−u

10

− 3u

8

− 4u

6

− u

4

+ u

2

− u + 1

−2u

11

− u

10

+ ··· + u − 2



a

9

=



−u

10

− 3u

8

− 4u

6

− u

4

+ u

2

− u + 1

−2u

11

− u

10

+ ··· + u − 2



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

9

− 12u

7

− 12u

5

+ 4u

3

+ 8u − 6

6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

c

1

, c

4

, c

5

(u

6

− u

5

− 3u

4

+ 2u

3

+ 2u

2

+ u − 1)

2

c

2

, c

3

, c

6

c

8

u

12

− u

11

+ 4u

10

− 4u

9

+ 7u

8

− 7u

7

+ 5u

6

− 5u

5

+ u

4

− u

3

+ 1

c

7

, c

9

u

12

+ 7u

11

+ ··· + 2u

2

+ 1

7

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

c

1

, c

4

, c

5

(y

6

− 7y

5

+ 17y

4

− 16y

3

+ 6y

2

− 5y + 1)

2

c

2

, c

3

, c

6

c

8

y

12

+ 7y

11

+ ··· + 2y

2

+ 1

c

7

, c

9

y

12

− 5y

11

+ ··· + 4y + 1

8

(vi) Complex Volumes and Cusp Shapes

Solutions to I

u

2

√

−1(vol +

√

−1CS) Cusp shape

u = −0.386547 + 0.899125I

−0.32962 − 1.97241I −0.57572 + 3.68478I

u = −0.386547 − 0.899125I

−0.32962 + 1.97241I −0.57572 − 3.68478I

u = 0.206575 + 1.062080I

−4.02872 −9.41678 + 0.I

u = 0.206575 − 1.062080I

−4.02872 −9.41678 + 0.I

u = −0.869654 + 0.049931I

−6.98545 + 4.59213I −4.58114 − 3.20482I

u = −0.869654 − 0.049931I

−6.98545 − 4.59213I −4.58114 + 3.20482I

u = 0.460851 + 1.226450I

−6.98545 + 4.59213I −4.58114 − 3.20482I

u = 0.460851 − 1.226450I

−6.98545 − 4.59213I −4.58114 + 3.20482I

u = −0.436607 + 1.253750I

−10.9500 −8.26950 + 0.I

u = −0.436607 − 1.253750I

−10.9500 −8.26950 + 0.I

u = 0.525382 + 0.335320I

−0.32962 − 1.97241I −0.57572 + 3.68478I

u = 0.525382 − 0.335320I

−0.32962 + 1.97241I −0.57572 − 3.68478I

9

III. u-Polynomials

Crossings u-Polynomials at each crossing

c

1

, c

4

, c

5

(u

6

− u

5

− 3u

4

+ 2u

3

+ 2u

2

+ u − 1)

2

· (u

7

+ 3u

6

+ u

5

− 2u

4

+ 2u

3

+ 3u

2

+ u + 2)

c

2

, c

3

, c

6

c

8

(u

7

+ 2u

5

+ u

4

+ 2u

3

+ u

2

+ 1)

· (u

12

− u

11

+ 4u

10

− 4u

9

+ 7u

8

− 7u

7

+ 5u

6

− 5u

5

+ u

4

− u

3

+ 1)

c

7

, c

9

(u

7

+ 4u

6

+ ··· − 2u − 1)(u

12

+ 7u

11

+ ··· + 2u

2

+ 1)

10

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

c

1

, c

4

, c

5

(y

6

− 7y

5

+ 17y

4

− 16y

3

+ 6y

2

− 5y + 1)

2

· (y

7

− 7y

6

+ 17y

5

− 16y

4

+ 6y

3

+ 3y

2

− 11y −4)

c

2

, c

3

, c

6

c

8

(y

7

+ 4y

6

+ ··· − 2y −1)(y

12

+ 7y

11

+ ··· + 2y

2

+ 1)

c

7

, c

9

(y

7

+ 12y

5

+ ··· − 2y −1)(y

12

− 5y

11

+ ··· + 4y + 1)

11