12n

0349

(K12n

0349

)

A knot diagram

Linearized knot diagam

3 5 8 10 2 11 3 4 1 7 10 4

Solving Sequence

4,8 9,12

1 10 5 3 2 6 7 11

, c

Ideals for irreducible components

of X

par

= h5.03279 × 10

+ 1.41088 × 10

+ ··· + 3.11126 × 10

b − 1.47947 × 10

2.83952 × 10

+ 2.39177 × 10

+ ··· + 5.38247 × 10

a − 1.28920 × 10

− u

+ ··· + 570u − 173i

= h4u

+ u

+ ··· + b − 5, 5u

+ 2u

+ ··· + a − 5,

− 7u

− u

+ 22u

+ 6u

− 43u

− 15u

+ 58u

+ 19u

− 52u

− 13u

+ 29u

+ 5u

− 8u

− u + 1i

* 2 irreducible components of dim

= 0, with total 38 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

h5.03×10

+1.41×10

+· · ·+3.11×10

b−1.48×10

, 2.84×10

2.39 × 10

+ · · · + 5.38 × 10

a − 1.29 × 10

, u

− u

+ · · · + 570u − 173i

(i) Arc colorings











−u





−0.000527549u

− 0.00444362u

+ ··· − 2.94596u + 2.39519

−0.0161761u

− 0.00453474u

+ ··· + 4.84486u + 0.475523





−0.000527549u

− 0.00444362u

+ ··· − 2.94596u + 2.39519

−0.0112823u

− 0.00307489u

+ ··· + 2.10256u + 1.33554





−0.00747297u

− 0.00222999u

+ ··· + 1.32872u + 0.919896

−0.0287409u

+ 0.00951872u

+ ··· + 15.0584u − 4.13187





−0.0176760u

+ 0.00338113u

+ ··· + 7.60759u − 1.52246

−0.00312229u

+ 0.0168476u

+ ··· + 9.58458u − 3.73734





−u





0.0117801u

− 0.0136133u

+ ··· − 11.9200u + 5.73898

−0.0235899u

+ 0.00609484u

+ ··· + 11.0766u − 2.00826





0.0114740u

− 0.00633450u

+ ··· − 6.51280u + 1.90552

−0.0333527u

+ 0.0105246u

+ ··· + 16.7996u − 4.51821





−u

+ 1





−0.0267510u

− 0.00298230u

+ ··· + 5.83060u + 2.41175

−0.0193326u

+ 0.0165589u

+ ··· + 15.3927u − 4.75155



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.0344880u

− 0.0647662u

+ ··· − 54.7216u + 34.1950

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 3u

+ ··· + 129u + 121

, c

+ 3u

+ ··· + 61u − 11

, c

+ u

+ ··· − 570u − 173

+ 12u

+ ··· − 5056u − 1856

, c

− u

+ ··· + 387u − 119

− 3u

+ ··· − 17u + 1

+ u

+ ··· − 50523u + 14161

+ u

+ ··· + 8u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 47y

+ ··· + 1408497y + 14641

, c

+ 3y

+ ··· + 129y + 121

, c

− 33y

+ ··· − 222830y + 29929

− 48y

+ ··· − 17842176y + 3444736

, c

+ y

+ ··· − 50523y + 14161

+ 17y

+ ··· − 89y + 1

+ 57y

+ ··· − 20509146359y + 200533921

+ 49y

+ ··· − 52y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.888889 + 0.621508I

a = −0.785790 − 0.787936I

b = 1.41234 − 0.32273I

−2.09331 + 2.22663I 10.35334 − 5.55870I

u = 0.888889 − 0.621508I

a = −0.785790 + 0.787936I

b = 1.41234 + 0.32273I

−2.09331 − 2.22663I 10.35334 + 5.55870I

u = 1.125980 + 0.181359I

a = 0.194049 + 0.934438I

b = 0.533838 + 1.294670I

2.80761 − 4.32610I 7.93255 + 4.44451I

u = 1.125980 − 0.181359I

a = 0.194049 − 0.934438I

b = 0.533838 − 1.294670I

2.80761 + 4.32610I 7.93255 − 4.44451I

u = 0.468073 + 0.568730I

a = 0.033725 − 0.194825I

b = 0.67213 + 1.29726I

0.96204 − 3.13844I 5.33676 + 0.34451I

u = 0.468073 − 0.568730I

a = 0.033725 + 0.194825I

b = 0.67213 − 1.29726I

0.96204 + 3.13844I 5.33676 − 0.34451I

u = −1.219380 + 0.529046I

a = −1.29654 + 1.66639I

b = 0.021894 + 0.717525I

−9.56729 − 1.76902I 9.41797 + 0.67359I

u = −1.219380 − 0.529046I

a = −1.29654 − 1.66639I

b = 0.021894 − 0.717525I

−9.56729 + 1.76902I 9.41797 − 0.67359I

u = 1.138980 + 0.705814I

a = 0.762830 + 0.903956I

b = −1.373520 + 0.140422I

−5.89358 + 2.47710I 2.52368 − 2.07081I

u = 1.138980 − 0.705814I

a = 0.762830 − 0.903956I

b = −1.373520 − 0.140422I

−5.89358 − 2.47710I 2.52368 + 2.07081I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.390919 + 0.487203I

a = −0.142272 − 0.861639I

b = 0.433308 − 0.046954I

−1.67513 + 1.49906I 2.16861 − 5.00550I

u = 0.390919 − 0.487203I

a = −0.142272 + 0.861639I

b = 0.433308 + 0.046954I

−1.67513 − 1.49906I 2.16861 + 5.00550I

u = −0.486914

a = 0.684920

b = −0.232651

0.667389 15.1430

u = −1.51784 + 0.10872I

a = 0.152442 + 0.390876I

b = −0.0746395 + 0.0560374I

4.60852 − 3.54663I 3.76213 + 0.30741I

u = −1.51784 − 0.10872I

a = 0.152442 − 0.390876I

b = −0.0746395 − 0.0560374I

4.60852 + 3.54663I 3.76213 − 0.30741I

u = −1.16828 + 1.29949I

a = 0.771799 − 0.429092I

b = −0.50715 − 2.09278I

5.62161 − 3.04840I 8.24444 + 1.87699I

u = −1.16828 − 1.29949I

a = 0.771799 + 0.429092I

b = −0.50715 + 2.09278I

5.62161 + 3.04840I 8.24444 − 1.87699I

u = 1.88865 + 0.65161I

a = 0.557638 + 0.987237I

b = −1.32425 + 1.66024I

14.5063 + 11.3964I 7.17418 − 4.33997I

u = 1.88865 − 0.65161I

a = 0.557638 − 0.987237I

b = −1.32425 − 1.66024I

14.5063 − 11.3964I 7.17418 + 4.33997I

u = 2.18883

a = −0.226088

b = −2.17979

10.8028 8.45190

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −2.34694 + 0.29798I

a = 0.184555 − 0.987184I

b = −0.08772 − 2.56787I

16.2419 − 0.6601I 8.28889 + 0.I

u = −2.34694 − 0.29798I

a = 0.184555 + 0.987184I

b = −0.08772 + 2.56787I

16.2419 + 0.6601I 8.28889 + 0.I

II.

= h4u

+· · ·+b −5, 5u

+2u

+· · ·+a −5, u

−7u

+· · ·−u +1i

(i) Arc colorings











−u





−5u

− 2u

+ ··· + 10u + 5

−4u

− u

+ ··· + 9u + 5





−5u

− 2u

+ ··· + 10u + 5

−2u

+ 14u

+ ··· + 6u + 3





−u

+ 6u

+ ··· − 8u

− u

−4u

− 2u

+ ··· + 7u + 6





− 13u

+ ··· + 3u

− 2u

+ u

+ ··· − 2u − 5





−u





−3u

− u

+ ··· + 5u + 3

−4u

− u

+ ··· + 11u + 5





+ u

+ ··· − 12u − 5

+ 2u

+ ··· − 10u − 6





−u

+ 1





−2u

− 2u

+ ··· + 3u + 2

−5u

− 2u

+ ··· + 9u + 7



(ii) Obstruction class = 1

(iii) Cusp Shapes = −14u

− 7u

+ 93u

+ 59u

− 272u

− 213u

+ 485u

439u

− 583u

− 544u

+ 451u

+ 409u

− 202u

− 183u

+ 22u + 36

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 14u

+ ··· − 18u + 1

+ 2u

+ ··· + 2u + 1

− 7u

+ ··· + u + 1

+ 2u

+ ··· − u + 1

− 2u

+ ··· − 2u + 1

+ 8u

+ ··· + 2u + 1

, c

− 7u

+ ··· − u + 1

− 4u

+ ··· + 4u

+ 1

+ 8u

+ ··· − 2u + 1

+ 16u

+ ··· + 18u + 1

+ 14u

+ ··· + 7u + 7

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 10y

+ ··· − 42y + 1

, c

+ 14y

+ ··· + 18y + 1

, c

− 14y

+ ··· − 17y + 1

+ 4y

+ ··· + y + 1

, c

+ 16y

+ ··· + 18y + 1

− 4y

+ ··· − 12y

+ 1

− 16y

+ ··· − 18y + 1

+ 28y

+ ··· + 1505y + 49

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.895121 + 0.512839I

a = −0.764453 − 0.786216I

b = 1.48200 − 0.38704I

−2.57741 + 2.02646I −4.32270 − 0.49641I

u = 0.895121 − 0.512839I

a = −0.764453 + 0.786216I

b = 1.48200 + 0.38704I

−2.57741 − 2.02646I −4.32270 + 0.49641I

u = −0.991446 + 0.300154I

a = 0.72110 − 1.52416I

b = −1.200410 − 0.280363I

−5.52393 − 1.17654I 4.37675 − 1.28594I

u = −0.991446 − 0.300154I

a = 0.72110 + 1.52416I

b = −1.200410 + 0.280363I

−5.52393 + 1.17654I 4.37675 + 1.28594I

u = 1.042540 + 0.498206I

a = 1.57083 + 2.03165I

b = −0.562512 + 0.129135I

−10.21970 + 1.92477I −2.98411 − 3.89934I

u = 1.042540 − 0.498206I

a = 1.57083 − 2.03165I

b = −0.562512 − 0.129135I

−10.21970 − 1.92477I −2.98411 + 3.89934I

u = −0.947353 + 0.893061I

a = −0.995021 + 0.545877I

b = 1.157010 + 0.171797I

−5.04353 − 3.27906I 6.96610 + 5.21245I

u = −0.947353 − 0.893061I

a = −0.995021 − 0.545877I

b = 1.157010 − 0.171797I

−5.04353 + 3.27906I 6.96610 − 5.21245I

u = −0.535533 + 0.224627I

a = −0.50673 − 1.96194I

b = 0.091098 − 1.093350I

0.313495 − 1.189950I 7.79460 + 1.38246I

u = −0.535533 − 0.224627I

a = −0.50673 + 1.96194I

b = 0.091098 + 1.093350I

0.313495 + 1.189950I 7.79460 − 1.38246I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.42936 + 0.19543I

a = 0.667578 + 0.371646I

b = −0.005180 + 0.635975I

3.92703 − 0.68720I 9.16301 − 0.40551I

u = −1.42936 − 0.19543I

a = 0.667578 − 0.371646I

b = −0.005180 − 0.635975I

3.92703 + 0.68720I 9.16301 + 0.40551I

u = 1.46404 + 0.03561I

a = 0.004983 − 0.187762I

b = 0.403326 − 0.712059I

5.03010 + 4.12297I 11.6031 − 8.8115I

u = 1.46404 − 0.03561I

a = 0.004983 + 0.187762I

b = 0.403326 + 0.712059I

5.03010 − 4.12297I 11.6031 + 8.8115I

u = 0.501986 + 0.071058I

a = −0.69829 − 1.53708I

b = 0.634668 − 1.218490I

0.93447 + 4.27246I 4.40321 − 6.78367I

u = 0.501986 − 0.071058I

a = −0.69829 + 1.53708I

b = 0.634668 + 1.218490I

0.93447 − 4.27246I 4.40321 + 6.78367I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 14u

+ ··· − 18u + 1)(u

+ 3u

+ ··· + 129u + 121)

+ 2u

+ ··· + 2u + 1)(u

+ 3u

+ ··· + 61u − 11)

− 7u

+ ··· + u + 1)(u

+ u

+ ··· − 570u − 173)

+ 2u

+ ··· − u + 1)(u

+ 12u

+ ··· − 5056u − 1856)

− 2u

+ ··· − 2u + 1)(u

+ 3u

+ ··· + 61u − 11)

+ 8u

+ ··· + 2u + 1)(u

− u

+ ··· + 387u − 119)

, c

− 7u

+ ··· − u + 1)(u

+ u

+ ··· − 570u − 173)

− 4u

+ ··· + 4u

+ 1)(u

− 3u

+ ··· − 17u + 1)

+ 8u

+ ··· − 2u + 1)(u

− u

+ ··· + 387u − 119)

+ 16u

+ ··· + 18u + 1)(u

+ u

+ ··· − 50523u + 14161)

+ 14u

+ ··· + 7u + 7)(u

+ u

+ ··· + 8u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 10y

+ ··· − 42y + 1)(y

+ 47y

+ ··· + 1408497y + 14641)

, c

+ 14y

+ ··· + 18y + 1)(y

+ 3y

+ ··· + 129y + 121)

, c

− 14y

+ ··· − 17y + 1)(y

− 33y

+ ··· − 222830y + 29929)

+ 4y

+ ··· + y + 1)(y

− 48y

+ ··· − 1.78422 × 10

y + 3444736)

, c

+ 16y

+ ··· + 18y + 1)(y

+ y

+ ··· − 50523y + 14161)

− 4y

+ ··· − 12y

+ 1)(y

+ 17y

+ ··· − 89y + 1)

− 16y

+ ··· − 18y + 1)

· (y

+ 57y

+ ··· − 20509146359y + 200533921)

+ 28y

+ ··· + 1505y + 49)(y

+ 49y

+ ··· − 52y + 1)