12n

0078

(K12n

0078

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

1,8 4,9

3 2 5 7 12 10 11 6

, c

Ideals for irreducible components

of X

par

= h37387481608u

− 262071379227u

+ ··· + 62312469363b + 37745018210,

39879980401u

− 353616847554u

+ ··· + 62312469363a + 919059301277,

− 8u

+ ··· + 19u − 1i

= hb, −u

− u

− 4u

+ a − 3u − 3, u

+ u

+ 4u

+ 3u

+ 3u + 1i

* 2 irreducible components of dim

= 0, with total 42 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

h3.74×10

−2.62×10

+· · ·+6.23×10

b+3.77×10

, 3.99×10

−

3.54 × 10

+ · · · + 6.23 × 10

a + 9.19 × 10

, u

− 8u

+ · · · + 19u − 1i

(i) Arc colorings











−0.640000u

+ 5.67490u

+ ··· + 118.964u − 14.7492

−0.600000u

+ 4.20576u

+ ··· + 2.58902u − 0.605738





−u





−1.24000u

+ 9.88066u

+ ··· + 121.553u − 15.3549

−0.600000u

+ 4.20576u

+ ··· + 2.58902u − 0.605738





−0.440000u

+ 4.28395u

+ ··· + 104.318u − 12.1296

−0.400000u

+ 2.79424u

+ ··· + 2.41098u − 0.394262





−0.600000u

+ 4.20165u

+ ··· + 21.8826u − 3.88735

−0.400000u

+ 2.79424u

+ ··· + 2.41098u − 0.394262





−0.394262u

+ 2.75410u

+ ··· + 35.8645u − 5.08000

−0.598354u

+ 4.78683u

+ ··· + 7.51265u − 0.600000





−u

+ u





+ 1

−u

− 2u





−u

− 2u

+ 3u

+ u





−1.00000u

+ 6.99588u

+ ··· + 24.2936u − 4.28162

−0.400000u

+ 2.79424u

+ ··· + 2.41098u − 0.394262



(ii) Obstruction class = −1

(iii) Cusp Shapes

= −

126456874109

20770823121

325863614327

6923607707

+ ··· +

5835323526623

20770823121

u −

551008395754

20770823121

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 12u

+ ··· + 5u + 1

, c

− 6u

+ ··· − 3u + 1

, c

− u

+ ··· + 120u

+ 32

+ 2u

+ ··· + 3u + 1

, c

+ 2u

+ ··· + 3u + 1

, c

− 8u

+ ··· + 19u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 32y

+ ··· + 5y −1

, c

− 12y

+ ··· + 5y −1

, c

+ 33y

+ ··· − 7680y −1024

− 40y

+ ··· + 19y −1

, c

− 8y

+ ··· + 19y −1

, c

+ 44y

+ ··· + 99y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.192278 + 0.981446I

a = 0.020576 − 0.394070I

b = 0.028151 + 0.615473I

−2.37817 + 2.37893I 2.00000 − 4.24354I

u = 0.192278 − 0.981446I

a = 0.020576 + 0.394070I

b = 0.028151 − 0.615473I

−2.37817 − 2.37893I 2.00000 + 4.24354I

u = 0.954498 + 0.071334I

a = −0.13625 + 3.34385I

b = 0.22449 − 1.57573I

7.67323 + 3.34146I 7.54708 − 2.94673I

u = 0.954498 − 0.071334I

a = −0.13625 − 3.34385I

b = 0.22449 + 1.57573I

7.67323 − 3.34146I 7.54708 + 2.94673I

u = 0.739019 + 0.820681I

a = −0.80030 − 2.64862I

b = −0.02142 + 1.55446I

5.46691 + 2.17037I 0

u = 0.739019 − 0.820681I

a = −0.80030 + 2.64862I

b = −0.02142 − 1.55446I

5.46691 − 2.17037I 0

u = 0.488581 + 0.716463I

a = −0.400880 + 0.540394I

b = 0.929621 − 0.055392I

−0.60086 + 3.42978I 1.46957 − 8.06302I

u = 0.488581 − 0.716463I

a = −0.400880 − 0.540394I

b = 0.929621 + 0.055392I

−0.60086 − 3.42978I 1.46957 + 8.06302I

u = 0.694171 + 0.952511I

a = 0.57988 + 2.67460I

b = 0.43869 − 1.52488I

4.63566 + 8.76465I 0

u = 0.694171 − 0.952511I

a = 0.57988 − 2.67460I

b = 0.43869 + 1.52488I

4.63566 − 8.76465I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.301349 + 0.644967I

a = −0.44045 + 2.61190I

b = −0.171200 − 0.710425I

−2.48892 + 1.77260I 1.52089 − 2.95783I

u = 0.301349 − 0.644967I

a = −0.44045 − 2.61190I

b = −0.171200 + 0.710425I

−2.48892 − 1.77260I 1.52089 + 2.95783I

u = −0.337610 + 0.584660I

a = −1.40228 + 3.03617I

b = −0.36360 − 1.42665I

2.83785 − 4.34213I −1.01036 + 2.76263I

u = −0.337610 − 0.584660I

a = −1.40228 − 3.03617I

b = −0.36360 + 1.42665I

2.83785 + 4.34213I −1.01036 − 2.76263I

u = 0.530968 + 0.127903I

a = −0.409091 − 0.456941I

b = 0.495562 + 0.299085I

1.138660 + 0.126784I 8.90691 − 0.21757I

u = 0.530968 − 0.127903I

a = −0.409091 + 0.456941I

b = 0.495562 − 0.299085I

1.138660 − 0.126784I 8.90691 + 0.21757I

u = −0.361376 + 0.397065I

a = 1.91674 − 3.19790I

b = −0.08394 + 1.41819I

3.38035 + 1.79092I −0.30116 − 2.50097I

u = −0.361376 − 0.397065I

a = 1.91674 + 3.19790I

b = −0.08394 − 1.41819I

3.38035 − 1.79092I −0.30116 + 2.50097I

u = −0.05375 + 1.50789I

a = 0.41135 − 1.87901I

b = 0.31409 + 1.45132I

−2.96990 + 0.48951I 0

u = −0.05375 − 1.50789I

a = 0.41135 + 1.87901I

b = 0.31409 − 1.45132I

−2.96990 − 0.48951I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.121575 + 0.445561I

a = −0.633975 + 0.683934I

b = −0.744443 + 0.181579I

−1.49379 + 0.01486I −3.88474 − 1.23232I

u = 0.121575 − 0.445561I

a = −0.633975 − 0.683934I

b = −0.744443 − 0.181579I

−1.49379 − 0.01486I −3.88474 + 1.23232I

u = 0.04039 + 1.56760I

a = 0.458186 − 0.041159I

b = −1.179650 + 0.205890I

−8.59444 + 0.63473I 0

u = 0.04039 − 1.56760I

a = 0.458186 + 0.041159I

b = −1.179650 − 0.205890I

−8.59444 − 0.63473I 0

u = −0.08929 + 1.58859I

a = −0.45250 + 1.92403I

b = −0.60720 − 1.42349I

−4.65231 − 5.85535I 0

u = −0.08929 − 1.58859I

a = −0.45250 − 1.92403I

b = −0.60720 + 1.42349I

−4.65231 + 5.85535I 0

u = 0.08760 + 1.59752I

a = −0.01097 + 2.27117I

b = −0.029458 − 1.097490I

−10.20710 + 3.22026I 0

u = 0.08760 − 1.59752I

a = −0.01097 − 2.27117I

b = −0.029458 + 1.097490I

−10.20710 − 3.22026I 0

u = 0.14093 + 1.60627I

a = −0.520990 + 0.031249I

b = 1.201680 + 0.152602I

−8.46942 + 5.78175I 0

u = 0.14093 − 1.60627I

a = −0.520990 − 0.031249I

b = 1.201680 − 0.152602I

−8.46942 − 5.78175I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.23304 + 1.62264I

a = −0.36642 − 2.02217I

b = −0.30906 + 1.52120I

−2.61045 + 5.89112I 0

u = 0.23304 − 1.62264I

a = −0.36642 + 2.02217I

b = −0.30906 − 1.52120I

−2.61045 − 5.89112I 0

u = 0.21905 + 1.68997I

a = 0.36567 + 1.99824I

b = 0.62038 − 1.45655I

−4.28516 + 12.41430I 0

u = 0.21905 − 1.68997I

a = 0.36567 − 1.99824I

b = 0.62038 + 1.45655I

−4.28516 − 12.41430I 0

u = 0.05172 + 1.71102I

a = 0.004613 − 0.307882I

b = −0.004397 + 0.596568I

−11.96180 + 3.35478I 0

u = 0.05172 − 1.71102I

a = 0.004613 + 0.307882I

b = −0.004397 − 0.596568I

−11.96180 − 3.35478I 0

u = 0.0937286

a = −7.36583

b = −0.476600

−1.21783 −10.0460

II. I

= hb, −u

− u

− 4u

+ a − 3u − 3, u

+ u

+ 4u

+ 3u

+ 3u + 1i

(i) Arc colorings











+ u

+ 4u

+ 3u + 3





−u





+ u

+ 4u

+ 3u + 3





+ u

+ 4u

+ 3u + 3





−u









−u

+ u





+ 1

−u

− 2u





−u

− 2u

−u

− u

− 3u

− 2u − 1





−u



(ii) Obstruction class = 1

(iii) Cusp Shapes = 7u

+ 6u

+ 28u

+ 17u + 12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

, c

+ u

+ 4u

+ 3u

+ 3u + 1

+ u

− u

+ u + 1

− u

+ u

+ u − 1

, c

− u

+ 4u

− 3u

+ 3u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

+ 7y

+ 16y

+ 13y

+ 3y −1

, c

− y

+ 4y

− 3y

+ 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.233677 + 0.885557I

a = 0.278580 + 1.055720I

b = 0

−3.46474 − 2.21397I −6.65223 + 4.39723I

u = −0.233677 − 0.885557I

a = 0.278580 − 1.055720I

b = 0

−3.46474 + 2.21397I −6.65223 − 4.39723I

u = −0.416284

a = 2.40221

b = 0

−0.762751 9.55270

u = −0.05818 + 1.69128I

a = 0.020316 + 0.590570I

b = 0

−12.60320 − 3.33174I −9.12414 + 2.18947I

u = −0.05818 − 1.69128I

a = 0.020316 − 0.590570I

b = 0

−12.60320 + 3.33174I −9.12414 − 2.18947I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

+ 12u

+ ··· + 5u + 1)

((u − 1)

)(u

− 6u

+ ··· − 3u + 1)

, c

− u

+ ··· + 120u

+ 32)

((u + 1)

)(u

− 6u

+ ··· − 3u + 1)

+ u

+ 4u

+ 3u

+ 3u + 1)(u

+ 2u

+ ··· + 3u + 1)

+ u

− u

+ u + 1)(u

+ 2u

+ ··· + 3u + 1)

, c

+ u

+ 4u

+ 3u

+ 3u + 1)(u

− 8u

+ ··· + 19u − 1)

− u

+ u

+ u − 1)(u

+ 2u

+ ··· + 3u + 1)

, c

− u

+ 4u

− 3u

+ 3u − 1)(u

− 8u

+ ··· + 19u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y −1)

)(y

+ 32y

+ ··· + 5y −1)

, c

((y −1)

)(y

− 12y

+ ··· + 5y −1)

, c

+ 33y

+ ··· − 7680y −1024)

+ 7y

+ 16y

+ 13y

+ 3y −1)(y

− 40y

+ ··· + 19y −1)

, c

− y

+ 4y

− 3y

+ 3y −1)(y

− 8y

+ ··· + 19y −1)

, c

+ 7y

+ 16y

+ 13y

+ 3y −1)(y

+ 44y

+ ··· + 99y −1)