12a

0984

(K12a

0984

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,12

1,4

2 9 5 11 3 6 10

, c

Ideals for irreducible components

of X

par

= h−5.50090 × 10

+ 1.26323 × 10

+ ··· + 2.01207 × 10

b − 1.19889 × 10

− 8.05777 × 10

− 9.65753 × 10

+ ··· + 2.01207 × 10

a + 2.45376 × 10

, u

− u

+ ··· + 15u + 1i

= h−u

+ 8u

− u

− 24u

+ 6u

+ 34u

− 12u

− 24u

+ 9u

+ 8u

+ b − 2u − 1,

− 10u

+ 2u

+ 39u

− 15u

− 74u

+ 40u

+ 70u

− 46u

− 31u

+ 24u

+ a + 5u − 6,

− 10u

+ u

+ 39u

− 8u

− 75u

+ 23u

+ 75u

− 29u

− 39u

+ 17u

+ 10u

− 5u − 1i

* 2 irreducible components of dim

= 0, with total 79 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.

= h−5.50×10

+1.26×10

+· · ·+2.01×10

b−1.20×10

, −8.06×

−9.66×10

+· · ·+2.01×10

a+2.45×10

, u

−u

+· · ·+15u+1i

(i) Arc colorings











−u





−u

+ u





0.400471u

+ 0.479979u

+ ··· − 6.74840u − 12.1952

2.73394u

− 6.27826u

+ ··· + 62.2065u + 5.95850





−1.62795u

+ 0.503503u

+ ··· − 247.503u − 7.75301

1.78903u

− 2.08762u

+ ··· + 55.9693u + 3.12673





−u

+ 1

− 2u





0.863498u

− 0.649790u

+ ··· − 2.52825u − 10.4084

1.54027u

− 4.04431u

+ ··· + 38.9849u + 4.28279





−u





1.78938u

− 2.87215u

+ ··· + 30.0752u − 9.53132

1.34504u

− 2.92613u

+ ··· + 25.3829u + 3.29464





0.633467u

+ 0.762597u

+ ··· + 99.1976u − 8.80979

−0.359097u

− 0.374796u

+ ··· − 20.0580u + 0.472607





0.648781u

− 2.39549u

+ ··· + 0.850744u + 17.0104

2.20379u

− 2.48811u

+ ··· + 37.1721u + 0.459690



(ii) Obstruction class = −1

(iii) Cusp Shapes = 1.12410u

− 3.19508u

+ ··· − 2.97273u + 13.0445

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 10u

+ ··· − 646157u + 15851

, c

− 31u

+ ··· + 4u + 1

− 2u

+ ··· + 1806u − 14929

, c

+ 2u

+ ··· + 81u − 1

, c

+ u

+ ··· + 15u − 1

+ 3u

+ ··· − 18311u + 5039

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 42y

+ ··· + 350419778635y −251254201

, c

− 62y

+ ··· − 446y −1

+ 34y

+ ··· + 1425607182y −222875041

, c

− 74y

+ ··· + 6515y −1

, c

− 85y

+ ··· − 125y −1

+ 27y

+ ··· + 94761095y −25391521

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.889757 + 0.433062I

a = 0.595422 − 0.198986I

b = 0.281933 + 0.547527I

7.58885 + 1.40904I 0

u = 0.889757 − 0.433062I

a = 0.595422 + 0.198986I

b = 0.281933 − 0.547527I

7.58885 − 1.40904I 0

u = 0.935679 + 0.430142I

a = −0.133556 + 0.252790I

b = 0.002645 + 1.300830I

5.78424 + 7.60090I 0

u = 0.935679 − 0.430142I

a = −0.133556 − 0.252790I

b = 0.002645 − 1.300830I

5.78424 − 7.60090I 0

u = −0.868051 + 0.564459I

a = −0.220898 − 0.124404I

b = 0.568115 − 0.720158I

4.84341 − 0.52476I 0

u = −0.868051 − 0.564459I

a = −0.220898 + 0.124404I

b = 0.568115 + 0.720158I

4.84341 + 0.52476I 0

u = 0.157396 + 0.936252I

a = −0.718874 − 0.451433I

b = −0.314810 − 0.120327I

9.74575 + 6.14975I 0

u = 0.157396 − 0.936252I

a = −0.718874 + 0.451433I

b = −0.314810 + 0.120327I

9.74575 − 6.14975I 0

u = −0.866334 + 0.387041I

a = 0.177626 + 0.667924I

b = −0.38134 − 1.60962I

7.62669 − 5.64553I 0

u = −0.866334 − 0.387041I

a = 0.177626 − 0.667924I

b = −0.38134 + 1.60962I

7.62669 + 5.64553I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.936520 + 0.039908I

a = −1.58250 − 0.14580I

b = 0.084560 − 1.007070I

11.75260 + 2.96607I 0

u = 0.936520 − 0.039908I

a = −1.58250 + 0.14580I

b = 0.084560 + 1.007070I

11.75260 − 2.96607I 0

u = −0.891446 + 0.041272I

a = −1.76473 − 0.50188I

b = 1.41399 + 1.40674I

11.30310 + 2.13802I 18.7856 − 3.2914I

u = −0.891446 − 0.041272I

a = −1.76473 + 0.50188I

b = 1.41399 − 1.40674I

11.30310 − 2.13802I 18.7856 + 3.2914I

u = −0.863593 + 0.206273I

a = 0.735499 + 0.727785I

b = −0.004341 + 1.321520I

4.72318 − 1.99911I 16.8500 + 4.6466I

u = −0.863593 − 0.206273I

a = 0.735499 − 0.727785I

b = −0.004341 − 1.321520I

4.72318 + 1.99911I 16.8500 − 4.6466I

u = 0.825189 + 0.164350I

a = 1.109760 − 0.001937I

b = −0.97431 − 1.02822I

4.60530 + 1.62841I 19.0869 − 5.0351I

u = 0.825189 − 0.164350I

a = 1.109760 + 0.001937I

b = −0.97431 + 1.02822I

4.60530 − 1.62841I 19.0869 + 5.0351I

u = 0.782280 + 0.256564I

a = −0.067172 + 0.264192I

b = 0.419229 − 1.239770I

1.05736 + 3.42824I 9.38737 − 8.82437I

u = 0.782280 − 0.256564I

a = −0.067172 − 0.264192I

b = 0.419229 + 1.239770I

1.05736 − 3.42824I 9.38737 + 8.82437I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.049540 + 0.559169I

a = −0.0045583 − 0.0656234I

b = 0.073399 + 1.340640I

13.4741 − 11.0913I 0

u = −1.049540 − 0.559169I

a = −0.0045583 + 0.0656234I

b = 0.073399 − 1.340640I

13.4741 + 11.0913I 0

u = −1.22679

a = −0.270827

b = −0.374892

2.39981 0

u = 0.952627 + 0.791056I

a = −0.0432079 + 0.0247757I

b = −0.402011 − 0.728715I

12.00730 − 0.38636I 0

u = 0.952627 − 0.791056I

a = −0.0432079 − 0.0247757I

b = −0.402011 + 0.728715I

12.00730 + 0.38636I 0

u = −0.096388 + 0.710673I

a = 0.837011 − 0.685506I

b = 0.488500 − 0.029172I

2.61549 − 3.79888I 9.89337 + 6.78663I

u = −0.096388 − 0.710673I

a = 0.837011 + 0.685506I

b = 0.488500 + 0.029172I

2.61549 + 3.79888I 9.89337 − 6.78663I

u = −0.706625 + 0.004243I

a = −0.326615 + 0.075243I

b = −0.438772 + 0.728388I

1.114370 + 0.096093I 9.80971 + 0.48102I

u = −0.706625 − 0.004243I

a = −0.326615 − 0.075243I

b = −0.438772 − 0.728388I

1.114370 − 0.096093I 9.80971 − 0.48102I

u = 1.30205

a = 0.756337

b = −0.949659

5.71531 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.011225 + 0.631699I

a = 1.173430 + 0.684067I

b = −0.243702 + 0.396416I

4.95418 + 2.21427I 8.45324 − 3.11503I

u = 0.011225 − 0.631699I

a = 1.173430 − 0.684067I

b = −0.243702 − 0.396416I

4.95418 − 2.21427I 8.45324 + 3.11503I

u = 1.46845

a = −0.187024

b = 1.14204

6.49904 0

u = −0.414265

a = 3.15526

b = −0.0379566

0.0573235 19.4200

u = 0.050717 + 0.407384I

a = −0.98626 + 1.37309I

b = 0.106234 + 0.222035I

−1.10170 − 1.06626I −0.72797 + 3.75877I

u = 0.050717 − 0.407384I

a = −0.98626 − 1.37309I

b = 0.106234 − 0.222035I

−1.10170 + 1.06626I −0.72797 − 3.75877I

u = −0.002304 + 0.351380I

a = −1.95027 − 1.37104I

b = −0.824432 + 0.186984I

2.13526 + 0.06396I 7.70510 + 0.30032I

u = −0.002304 − 0.351380I

a = −1.95027 + 1.37104I

b = −0.824432 − 0.186984I

2.13526 − 0.06396I 7.70510 − 0.30032I

u = −0.350174

a = −0.614828

b = −0.463481

0.719899 14.9890

u = 1.65272 + 0.01145I

a = 0.47953 + 1.86610I

b = −0.77556 − 2.58159I

9.51546 + 0.03244I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.65272 − 0.01145I

a = 0.47953 − 1.86610I

b = −0.77556 + 2.58159I

9.51546 − 0.03244I 0

u = −1.65709 + 0.05434I

a = −0.25689 − 2.19662I

b = 0.48205 + 2.85246I

9.61848 − 4.52679I 0

u = −1.65709 − 0.05434I

a = −0.25689 + 2.19662I

b = 0.48205 − 2.85246I

9.61848 + 4.52679I 0

u = −1.66991 + 0.04242I

a = 0.76197 − 1.61866I

b = −0.36741 + 2.21521I

13.41440 − 2.40644I 0

u = −1.66991 − 0.04242I

a = 0.76197 + 1.61866I

b = −0.36741 − 2.21521I

13.41440 + 2.40644I 0

u = 1.67767 + 0.09570I

a = 0.05955 − 2.48218I

b = −0.26406 + 3.07470I

16.5146 + 7.4665I 0

u = 1.67767 − 0.09570I

a = 0.05955 + 2.48218I

b = −0.26406 − 3.07470I

16.5146 − 7.4665I 0

u = 1.68402 + 0.05115I

a = −0.52918 + 2.34990I

b = 1.42152 − 3.59158I

13.74990 + 2.97652I 0

u = 1.68402 − 0.05115I

a = −0.52918 − 2.34990I

b = 1.42152 + 3.59158I

13.74990 − 2.97652I 0

u = 1.69185 + 0.00973I

a = −1.06345 + 1.76949I

b = 0.64856 − 2.29976I

−18.9704 − 1.9445I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.69185 − 0.00973I

a = −1.06345 − 1.76949I

b = 0.64856 + 2.29976I

−18.9704 + 1.9445I 0

u = −1.69453 + 0.10643I

a = −0.47342 + 1.38437I

b = 0.84199 − 2.02585I

16.6703 − 3.4851I 0

u = −1.69453 − 0.10643I

a = −0.47342 − 1.38437I

b = 0.84199 + 2.02585I

16.6703 + 3.4851I 0

u = −1.69423 + 0.11190I

a = 0.06318 + 2.21599I

b = −0.64443 − 3.30761I

14.9626 − 9.7162I 0

u = −1.69423 − 0.11190I

a = 0.06318 − 2.21599I

b = −0.64443 + 3.30761I

14.9626 + 9.7162I 0

u = 1.69496 + 0.13798I

a = −0.387962 − 1.341050I

b = 0.04223 + 2.01775I

13.8035 + 3.2283I 0

u = 1.69496 − 0.13798I

a = −0.387962 + 1.341050I

b = 0.04223 − 2.01775I

13.8035 − 3.2283I 0

u = −1.70249 + 0.00913I

a = 0.76510 − 1.62903I

b = −1.89492 + 2.45435I

−18.3078 − 3.1530I 0

u = −1.70249 − 0.00913I

a = 0.76510 + 1.62903I

b = −1.89492 − 2.45435I

−18.3078 + 3.1530I 0

u = 1.73019 + 0.15438I

a = 0.02330 + 2.05733I

b = 0.51225 − 3.00877I

−16.3366 + 14.0024I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.73019 − 0.15438I

a = 0.02330 − 2.05733I

b = 0.51225 + 3.00877I

−16.3366 − 14.0024I 0

u = −1.75668 + 0.21779I

a = 0.222757 − 1.210750I

b = 0.07750 + 1.91022I

−18.1051 − 3.7291I 0

u = −1.75668 − 0.21779I

a = 0.222757 + 1.210750I

b = 0.07750 − 1.91022I

−18.1051 + 3.7291I 0

u = −0.0432217 + 0.0807555I

a = −11.91410 − 0.09743I

b = 1.40737 − 0.33426I

8.63685 − 2.55255I 12.94052 − 1.53049I

u = −0.0432217 − 0.0807555I

a = −11.91410 + 0.09743I

b = 1.40737 + 0.33426I

8.63685 + 2.55255I 12.94052 + 1.53049I

II.

= h−u

+8u

+· · ·+b−1, u

−10u

+· · ·+a−6, u

−10u

+· · ·−5u−1i

(i) Arc colorings











−u





−u

+ u





−u

+ 10u

+ ··· − 5u + 6

− 8u

+ ··· + 2u + 1





−u

+ 10u

+ ··· − 5u + 5

−u

+ 6u

− 12u

+ 9u

− 2u





−u

+ 1

− 2u





−u

+ u

+ ··· − 5u + 7

− 7u

+ 17u

− 17u

+ 8u

− 3u





−u





−u

+ u

+ ··· − u + 7

− 2u





−u

+ 10u

+ ··· − 3u + 3

− 4u

+ 4u





−u

+ u

+ ··· + u − 5

− 9u

+ 31u

− 51u

+ 41u

− 15u

+ 3u



(ii) Obstruction class = 1

(iii) Cusp Shapes =

−u

−31u

+12u

+123u

−54u

−234u

+113u

+222u

−112u

−107u

+53u

+23u

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 3u

+ ··· − u − 1

− 3u

+ ··· − 4u + 1

+ u

+ ··· − 2u + 1

, c

+ u

+ ··· + u − 1

+ 3u

+ ··· + 4u + 1

, c

− 10u

+ ··· − 5u − 1

− u

+ ··· − u − 1

+ 2u

+ ··· − u + 1

, c

− 10u

+ ··· + 5u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 3y

+ ··· − 9y + 1

, c

− 17y

+ ··· − 60y + 1

+ 3y

+ ··· + 4y

+ 1

, c

− 17y

+ ··· − y + 1

, c

− 20y

+ ··· − 45y + 1

+ 4y

+ ··· + 3y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.968017 + 0.337938I

a = 1.078150 − 0.571014I

b = −0.709305 + 0.039438I

10.20040 − 0.82211I 14.2370 − 0.6203I

u = 0.968017 − 0.337938I

a = 1.078150 + 0.571014I

b = −0.709305 − 0.039438I

10.20040 + 0.82211I 14.2370 + 0.6203I

u = −1.14545

a = −0.563709

b = −0.155012

2.82868 18.6140

u = −0.720462 + 0.270481I

a = −0.628432 − 0.675348I

b = 0.656755 − 0.815273I

3.73792 − 1.01626I 11.08062 + 0.61543I

u = −0.720462 − 0.270481I

a = −0.628432 + 0.675348I

b = 0.656755 + 0.815273I

3.73792 + 1.01626I 11.08062 − 0.61543I

u = 0.558487 + 0.398529I

a = 0.112815 + 0.298362I

b = −1.03491 − 1.00628I

8.88600 + 3.51593I 15.2342 − 5.4123I

u = 0.558487 − 0.398529I

a = 0.112815 − 0.298362I

b = −1.03491 + 1.00628I

8.88600 − 3.51593I 15.2342 + 5.4123I

u = 1.37496

a = −0.439623

b = 1.10231

4.87233 7.57420

u = −1.64578 + 0.11762I

a = 0.89070 − 1.83826I

b = −0.91793 + 2.49252I

16.7686 − 5.4927I 16.7104 + 3.4526I

u = −1.64578 − 0.11762I

a = 0.89070 + 1.83826I

b = −0.91793 − 2.49252I

16.7686 + 5.4927I 16.7104 − 3.4526I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.66941 + 0.05921I

a = −0.19583 − 1.71092I

b = −0.33171 + 2.51769I

12.32760 + 2.20627I 11.06041 − 0.00050I

u = 1.66941 − 0.05921I

a = −0.19583 + 1.71092I

b = −0.33171 − 2.51769I

12.32760 − 2.20627I 11.06041 + 0.00050I

u = −1.72337

a = 0.416712

b = 0.220318

−19.0939 17.1450

u = −0.165484

a = 6.07182

b = 0.506584

−0.331903 −1.97830

III. u-Polynomials

Crossings u-Polynomials at each crossing

+ 3u

+ ··· − u − 1)(u

− 10u

+ ··· − 646157u + 15851)

− 3u

+ ··· − 4u + 1)(u

− 31u

+ ··· + 4u + 1)

+ u

+ ··· − 2u + 1)(u

− 2u

+ ··· + 1806u − 14929)

, c

+ u

+ ··· + u − 1)(u

+ 2u

+ ··· + 81u − 1)

+ 3u

+ ··· + 4u + 1)(u

− 31u

+ ··· + 4u + 1)

, c

− 10u

+ ··· − 5u − 1)(u

+ u

+ ··· + 15u − 1)

− u

+ ··· − u − 1)(u

+ 2u

+ ··· + 81u − 1)

+ 2u

+ ··· − u + 1)(u

+ 3u

+ ··· − 18311u + 5039)

, c

− 10u

+ ··· + 5u − 1)(u

+ u

+ ··· + 15u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 3y

+ ··· − 9y + 1)

· (y

+ 42y

+ ··· + 350419778635y −251254201)

, c

− 17y

+ ··· − 60y + 1)(y

− 62y

+ ··· − 446y −1)

+ 3y

+ ··· + 4y

+ 1)

· (y

+ 34y

+ ··· + 1425607182y −222875041)

, c

− 17y

+ ··· − y + 1)(y

− 74y

+ ··· + 6515y −1)

, c

− 20y

+ ··· − 45y + 1)(y

− 85y

+ ··· − 125y −1)

+ 4y

+ ··· + 3y + 1)

· (y

+ 27y

+ ··· + 94761095y −25391521)