12n

0561

(K12n

0561

)

A knot diagram

Linearized knot diagam

3 7 12 8 11 2 10 12 3 6 5 10

Solving Sequence

2,6

3,10

8 11 1 5 4 9 12

, c

Ideals for irreducible components

of X

par

= h19514643174787u

− 4572969237385u

+ ··· + 35208391096192b − 115134997157437,

− 44181034772241u

− 93208096612611u

+ ··· + 176041955480960a − 34686663928811,

+ u

+ ··· − 4u − 5i

= h−u

a − u

+ b + a, u

a − 2u

a + u

+ a

− au + 2a − 1, u

− u

+ 1i

* 2 irreducible components of dim

= 0, with total 43 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.

= h1.95×10

−4.57×10

+· · ·+3.52×10

b−1.15×10

, −4.42×

−9.32×10

+· · ·+1.76×10

a−3.47×10

, u

+· · ·−4u−5i

(i) Arc colorings















−u

+ u





0.250969u

+ 0.529465u

+ ··· + 2.80218u + 0.197036

−0.554261u

+ 0.129883u

+ ··· + 0.868164u + 3.27010





0.791772u

+ 0.423142u

+ ··· + 3.34243u − 2.71039

−0.523385u

+ 0.0869282u

+ ··· + 0.937584u + 2.29735





0.805230u

+ 0.399582u

+ ··· + 1.93402u − 3.07306

−0.554261u

+ 0.129883u

+ ··· + 0.868164u + 3.27010





− u

+ u





−0.472936u

+ 0.0799123u

+ ··· + 0.438637u + 2.87741

−0.556115u

− 0.173472u

+ ··· − 2.34087u + 2.38011





−0.816166u

+ 0.145199u

+ ··· + 1.79451u + 3.42292

−1.06658u

− 0.102045u

+ ··· − 3.07330u + 6.87995





0.601350u

+ 0.306853u

+ ··· + 2.54938u − 1.70567

−0.455033u

+ 0.135445u

+ ··· + 0.580899u + 2.30784





−0.528222u

+ 0.0504600u

+ ··· − 1.61488u + 4.49023

0.662513u

+ 0.0170577u

+ ··· + 1.34187u − 2.86220



(ii) Obstruction class = −1

(iii) Cusp Shapes

= −

3308824036235

17604195548096

2338411391075

17604195548096

+ ··· +

68902332437973

8802097774048

u −

143545741438237

17604195548096

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 21u

+ ··· − 74u + 25

, c

− u

+ ··· − 4u + 5

− 5u

+ ··· + 296u + 28

, c

− u

+ ··· − 16u + 4

, c

+ u

+ ··· − 6u + 1

− 3u

+ ··· + 6720u − 1472

− 3u

+ ··· + 6u + 5

+ 3u

+ ··· + 12u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 9y

+ ··· + 39626y −625

, c

− 21y

+ ··· − 74y −25

− 57y

+ ··· − 32784y −784

, c

+ 43y

+ ··· + 184y −16

, c

+ 39y

+ ··· + 34y −1

− 31y

+ ··· + 22678016y −2166784

+ 39y

+ ··· + 126y −25

+ 51y

+ ··· + 154y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.203911 + 0.973360I

a = −0.519106 + 0.963683I

b = −0.26045 − 1.53546I

−1.43478 − 6.20512I −1.86669 + 2.78198I

u = −0.203911 − 0.973360I

a = −0.519106 − 0.963683I

b = −0.26045 + 1.53546I

−1.43478 + 6.20512I −1.86669 − 2.78198I

u = 0.066320 + 0.984954I

a = −0.448541 − 0.317717I

b = −0.750046 + 0.533829I

−8.19601 + 2.49744I −5.06408 − 2.60195I

u = 0.066320 − 0.984954I

a = −0.448541 + 0.317717I

b = −0.750046 − 0.533829I

−8.19601 − 2.49744I −5.06408 + 2.60195I

u = 0.801249 + 0.559810I

a = 1.36028 − 1.03030I

b = 0.01451 + 1.59501I

8.83899 − 2.24678I 4.64462 + 3.81835I

u = 0.801249 − 0.559810I

a = 1.36028 + 1.03030I

b = 0.01451 − 1.59501I

8.83899 + 2.24678I 4.64462 − 3.81835I

u = 1.014440 + 0.137733I

a = −1.44237 + 0.41096I

b = −0.391237 + 0.679863I

−2.29834 − 0.76813I −7.21756 − 0.78239I

u = 1.014440 − 0.137733I

a = −1.44237 − 0.41096I

b = −0.391237 − 0.679863I

−2.29834 + 0.76813I −7.21756 + 0.78239I

u = 0.910408 + 0.541398I

a = −0.378721 + 0.991836I

b = −0.212665 − 0.039123I

−1.75949 − 2.05479I −11.09061 + 3.13209I

u = 0.910408 − 0.541398I

a = −0.378721 − 0.991836I

b = −0.212665 + 0.039123I

−1.75949 + 2.05479I −11.09061 − 3.13209I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.922478 + 0.127300I

a = −1.96495 + 0.18361I

b = −0.05491 + 1.64507I

5.90539 + 0.64255I −5.75392 + 0.64646I

u = −0.922478 − 0.127300I

a = −1.96495 − 0.18361I

b = −0.05491 − 1.64507I

5.90539 − 0.64255I −5.75392 − 0.64646I

u = −0.812370 + 0.424392I

a = 0.773162 + 0.362489I

b = 0.109550 − 0.685718I

1.05382 + 1.86722I 3.18128 − 4.59075I

u = −0.812370 − 0.424392I

a = 0.773162 − 0.362489I

b = 0.109550 + 0.685718I

1.05382 − 1.86722I 3.18128 + 4.59075I

u = 0.912261

a = 1.05610

b = 0.463900

−1.34236 −8.12570

u = −0.842169 + 0.777146I

a = −0.89892 − 1.28817I

b = −0.050273 + 1.397230I

3.07114 + 2.89052I −2.21100 − 2.95071I

u = −0.842169 − 0.777146I

a = −0.89892 + 1.28817I

b = −0.050273 − 1.397230I

3.07114 − 2.89052I −2.21100 + 2.95071I

u = −1.137850 + 0.335834I

a = −1.53286 + 0.05803I

b = −0.587577 + 0.359881I

−3.27817 + 4.26600I −8.05552 − 6.74990I

u = −1.137850 − 0.335834I

a = −1.53286 − 0.05803I

b = −0.587577 − 0.359881I

−3.27817 − 4.26600I −8.05552 + 6.74990I

u = −1.152990 + 0.388555I

a = 0.878906 − 1.034180I

b = 0.002872 − 1.337860I

2.24498 + 1.33286I −3.24945 − 0.69819I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.152990 − 0.388555I

a = 0.878906 + 1.034180I

b = 0.002872 + 1.337860I

2.24498 − 1.33286I −3.24945 + 0.69819I

u = 0.098226 + 0.753815I

a = 0.468379 + 0.420561I

b = 0.09057 − 1.46639I

5.88674 + 2.52249I 1.23506 − 2.87985I

u = 0.098226 − 0.753815I

a = 0.468379 − 0.420561I

b = 0.09057 + 1.46639I

5.88674 − 2.52249I 1.23506 + 2.87985I

u = 1.194500 + 0.470305I

a = −1.80401 − 0.60694I

b = −0.19201 − 1.46324I

2.66330 − 7.05772I −2.51905 + 5.88692I

u = 1.194500 − 0.470305I

a = −1.80401 + 0.60694I

b = −0.19201 + 1.46324I

2.66330 + 7.05772I −2.51905 − 5.88692I

u = 1.330550 + 0.340353I

a = 0.175592 − 0.683458I

b = 0.33732 − 1.47223I

−6.45071 + 1.73894I −5.86337 − 0.49500I

u = 1.330550 − 0.340353I

a = 0.175592 + 0.683458I

b = 0.33732 + 1.47223I

−6.45071 − 1.73894I −5.86337 + 0.49500I

u = −1.252450 + 0.585255I

a = 1.89880 + 0.08113I

b = 0.27080 − 1.59119I

−4.64525 + 11.83980I −4.29756 − 5.89282I

u = −1.252450 − 0.585255I

a = 1.89880 − 0.08113I

b = 0.27080 + 1.59119I

−4.64525 − 11.83980I −4.29756 + 5.89282I

u = −1.326130 + 0.448294I

a = 0.903307 + 0.583518I

b = 0.842224 + 0.446428I

−12.58030 + 2.55008I −8.43526 − 0.60252I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.326130 − 0.448294I

a = 0.903307 − 0.583518I

b = 0.842224 − 0.446428I

−12.58030 − 2.55008I −8.43526 + 0.60252I

u = 1.297550 + 0.525631I

a = 1.45281 − 0.36988I

b = 0.780540 + 0.640043I

−11.9977 − 7.9047I −7.36295 + 5.50788I

u = 1.297550 − 0.525631I

a = 1.45281 + 0.36988I

b = 0.780540 − 0.640043I

−11.9977 + 7.9047I −7.36295 − 5.50788I

u = −0.019019 + 0.438455I

a = 0.850181 + 0.183537I

b = 0.318829 + 0.391878I

−0.204022 − 1.109310I −3.01108 + 6.25704I

u = −0.019019 − 0.438455I

a = 0.850181 − 0.183537I

b = 0.318829 − 0.391878I

−0.204022 + 1.109310I −3.01108 − 6.25704I

II. I

= h−u

a − u

+ b + a, u

a − 2u

a + u

+ a

− au + 2a − 1, u

− u

+ 1i

(i) Arc colorings















−u

+ u





a + u

− a





a − u

a + u

− au + 2a

−u

a + u

− a − u





−u

a − u

+ 2a

a + u

− a









−u

a + u

− au − u

− 2u + 1

−u

+ au + u + 1





−2u

a + 2u

a + u

− 2au − u

− 2u + 2

−2u

+ 2au + u

− a + 2u





−u

+ a + 1

a + 2u

− a





−u

a + u

+ au + u

− a − u − 1

−u

a − u

− u

+ a



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4u

− 4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− u + 1)

, c

− u

+ 1)

+ 4u

+ 16u

+ 34u

+ 57u

+ 62u

+ 46u

+ 20u + 4

, c

+ 1)

, c

+ 3u

+ 1)

− 8u

+ 25u

− 38u

+ 33u

− 28u

+ 28u

− 16u + 4

+ u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ y + 1)

, c

− y + 1)

+ 16y

+ 98y

+ 264y

+ 353y

+ 168y

+ 92y

− 32y + 16

, c

(y + 1)

, c

+ 3y + 1)

− 14y

+ 83y

− 186y

+ 113y

+ 48y

+ 152y

− 32y + 16

− 3y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.866025 + 0.500000I

a = 0.901259 + 0.057008I

b = 1.61803I

7.23771 − 2.02988I −2.00000 + 3.46410I

u = 0.866025 + 0.500000I

a = −1.03523 + 1.17504I

b = − 0.618034I

−0.65797 − 2.02988I −2.00000 + 3.46410I

u = 0.866025 − 0.500000I

a = 0.901259 − 0.057008I

b = − 1.61803I

7.23771 + 2.02988I −2.00000 − 3.46410I

u = 0.866025 − 0.500000I

a = −1.03523 − 1.17504I

b = 0.618034I

−0.65797 + 2.02988I −2.00000 − 3.46410I

u = −0.866025 + 0.500000I

a = 0.035233 − 0.557008I

b = − 0.618034I

−0.65797 + 2.02988I −2.00000 − 3.46410I

u = −0.866025 + 0.500000I

a = −1.90126 − 1.67504I

b = 1.61803I

7.23771 + 2.02988I −2.00000 − 3.46410I

u = −0.866025 − 0.500000I

a = 0.035233 + 0.557008I

b = 0.618034I

−0.65797 − 2.02988I −2.00000 + 3.46410I

u = −0.866025 − 0.500000I

a = −1.90126 + 1.67504I

b = − 1.61803I

7.23771 − 2.02988I −2.00000 + 3.46410I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

+ 21u

+ ··· − 74u + 25)

, c

((u

− u

+ 1)

)(u

− u

+ ··· − 4u + 5)

+ 4u

+ 16u

+ 34u

+ 57u

+ 62u

+ 46u

+ 20u + 4)

· (u

− 5u

+ ··· + 296u + 28)

, c

((u

+ 1)

)(u

− u

+ ··· − 16u + 4)

, c

((u

+ 3u

+ 1)

)(u

+ u

+ ··· − 6u + 1)

− 8u

+ 25u

− 38u

+ 33u

− 28u

+ 28u

− 16u + 4)

· (u

− 3u

+ ··· + 6720u − 1472)

((u

− u

+ 1)

)(u

− 3u

+ ··· + 6u + 5)

((u

+ u − 1)

)(u

+ 3u

+ ··· + 12u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

− 9y

+ ··· + 39626y −625)

, c

((y

− y + 1)

)(y

− 21y

+ ··· − 74y −25)

+ 16y

+ 98y

+ 264y

+ 353y

+ 168y

+ 92y

− 32y + 16)

· (y

− 57y

+ ··· − 32784y −784)

, c

((y + 1)

)(y

+ 43y

+ ··· + 184y −16)

, c

((y

+ 3y + 1)

)(y

+ 39y

+ ··· + 34y −1)

− 14y

+ 83y

− 186y

+ 113y

+ 48y

+ 152y

− 32y + 16)

· (y

− 31y

+ ··· + 22678016y −2166784)

((y

− y + 1)

)(y

+ 39y

+ ··· + 126y −25)

((y

− 3y + 1)

)(y

+ 51y

+ ··· + 154y −1)