12a

0270

(K12a

0270

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

1,8 4,9

3 2 7 5 6 12 10 11

, c

Ideals for irreducible components

of X

par

= h−798268399u

+ 6250449929u

+ ··· + 10357680512b − 2584646788,

− 358149411u

+ 2967411165u

+ ··· + 5178840256a − 14354766596,

− 8u

+ ··· + 19u + 4i

= hu

− 3u

+ 3u

a + 4a

+ 2u

− 5a

u + 3u

a − 6u

+ a

+ 3au + 8u

+ 3b − 3a − 10u + 2,

− 2u

+ 3u

a + 8a

− 2u

a + a

− 6a

u + 11u

a + 6a

− 5au + 10a + u,

− u

+ 4u

− 3u

+ 3u − 1i

= h−u

+ u

+ b + a − 3u + 2, −2u

a + 2u

a − 2u

+ a

− 6au + u

+ 4a − 5u + 2, u

− u

+ 3u

− 2u + 1i

* 3 irreducible components of dim

= 0, with total 65 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−7.98 × 10

+ 6.25 × 10

+ · · · + 1.04× 10

b − 2.58 ×10

, −3.58 ×

+2.97×10

+· · ·+5.18×10

a−1.44×10

, u

−8u

+· · ·+19u+4i

(i) Arc colorings











0.0691563u

− 0.572988u

+ ··· + 3.90826u + 2.77181

0.0770702u

− 0.603460u

+ ··· − 0.703314u + 0.249539









0.146226u

− 1.17645u

+ ··· + 3.20495u + 3.02135

0.0770702u

− 0.603460u

+ ··· − 0.703314u + 0.249539





0.0816169u

− 0.664619u

+ ··· + 6.14207u + 0.645428

0.0288129u

− 0.231921u

+ ··· + 1.24875u + 0.105032





−0.0196220u

+ 0.147935u

+ ··· − 6.11036u + 0.584750

−0.00663609u

+ 0.0909429u

+ ··· + 1.05555u + 0.165094





0.0115304u

− 0.109146u

+ ··· + 7.16076u + 1.81175

0.0576259u

− 0.463842u

+ ··· − 0.502505u + 0.210065





−0.0525162u

+ 0.477755u

+ ··· − 5.10962u − 1.50031

−0.0197372u

+ 0.196786u

+ ··· + 0.707841u − 0.276625





+ u





+ 1

+ 2u





+ 2u

+ 3u

+ u



(ii) Obstruction class = −1

(iii) Cusp Shapes =

1891553825

2589420128

−

14308919975

2589420128

+ ··· +

33847466689

2589420128

u −

1329586633

647355032

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 13u

+ ··· + 147u + 4

, c

− u

+ ··· − 11u + 2

, c

− u

+ ··· − 17u + 2

, c

− 2u

+ ··· − u + 2

, c

+ 8u

+ ··· − 19u + 4

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 41y

+ ··· − 1601y + 16

, c

+ 13y

+ ··· + 147y + 4

, c

+ 49y

+ ··· + 163y + 4

, c

− 8y

+ ··· + 19y + 4

, c

+ 52y

+ ··· − 593y + 16

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.199296 + 0.987147I

a = −1.16462 − 1.63691I

b = −0.07090 + 1.52196I

9.23309 − 0.66880I 0. + 2.09820I

u = −0.199296 − 0.987147I

a = −1.16462 + 1.63691I

b = −0.07090 − 1.52196I

9.23309 + 0.66880I 0. − 2.09820I

u = 0.838964 + 0.514549I

a = 0.469470 − 0.436996I

b = −0.043564 + 1.403040I

2.90089 − 0.20752I −6.26688 + 0.I

u = 0.838964 − 0.514549I

a = 0.469470 + 0.436996I

b = −0.043564 − 1.403040I

2.90089 + 0.20752I −6.26688 + 0.I

u = 0.915478 + 0.320876I

a = −0.717082 + 0.350239I

b = −0.16817 − 1.42645I

2.31734 − 5.40050I −8.00000 + 6.13743I

u = 0.915478 − 0.320876I

a = −0.717082 − 0.350239I

b = −0.16817 + 1.42645I

2.31734 + 5.40050I −8.00000 − 6.13743I

u = 0.450384 + 1.002590I

a = −0.392271 + 0.489442I

b = −0.762687 − 0.383581I

0.60208 − 6.73872I 0

u = 0.450384 − 1.002590I

a = −0.392271 − 0.489442I

b = −0.762687 + 0.383581I

0.60208 + 6.73872I 0

u = −0.302006 + 0.836923I

a = 1.67864 + 1.44506I

b = 0.22550 − 1.51897I

8.07529 + 5.48503I −0.70916 − 2.91852I

u = −0.302006 − 0.836923I

a = 1.67864 − 1.44506I

b = 0.22550 + 1.51897I

8.07529 − 5.48503I −0.70916 + 2.91852I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.060244 + 0.788682I

a = 0.605228 + 0.925856I

b = 0.693973 − 0.485377I

1.48615 + 2.15029I −3.71859 − 3.19032I

u = −0.060244 − 0.788682I

a = 0.605228 − 0.925856I

b = 0.693973 + 0.485377I

1.48615 − 2.15029I −3.71859 + 3.19032I

u = 0.509270 + 0.583804I

a = −0.220296 + 1.029270I

b = −0.264495 + 0.109372I

−1.98852 − 1.21898I −14.0512 + 3.6292I

u = 0.509270 − 0.583804I

a = −0.220296 − 1.029270I

b = −0.264495 − 0.109372I

−1.98852 + 1.21898I −14.0512 − 3.6292I

u = 0.588709 + 1.120860I

a = −1.07852 + 1.38460I

b = −0.26708 − 1.48568I

6.68238 − 10.46650I 0

u = 0.588709 − 1.120860I

a = −1.07852 − 1.38460I

b = −0.26708 + 1.48568I

6.68238 + 10.46650I 0

u = 0.701442 + 0.208159I

a = −0.779517 − 0.388802I

b = −0.556875 − 0.244623I

−3.10427 − 2.84153I −15.5735 + 6.4385I

u = 0.701442 − 0.208159I

a = −0.779517 + 0.388802I

b = −0.556875 + 0.244623I

−3.10427 + 2.84153I −15.5735 − 6.4385I

u = 0.439199 + 1.197000I

a = 0.69981 − 1.54440I

b = 0.13274 + 1.47292I

8.27660 − 4.56148I 0

u = 0.439199 − 1.197000I

a = 0.69981 + 1.54440I

b = 0.13274 − 1.47292I

8.27660 + 4.56148I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.220775 + 0.575673I

a = −0.342696 − 0.818451I

b = 0.139249 + 0.831769I

1.40137 − 1.70947I −0.06449 + 5.59686I

u = 0.220775 − 0.575673I

a = −0.342696 + 0.818451I

b = 0.139249 − 0.831769I

1.40137 + 1.70947I −0.06449 − 5.59686I

u = 0.11412 + 1.52011I

a = 0.001825 − 1.058650I

b = 0.013978 + 1.115610I

8.31413 − 3.12469I 0

u = 0.11412 − 1.52011I

a = 0.001825 + 1.058650I

b = 0.013978 − 1.115610I

8.31413 + 3.12469I 0

u = −0.453394 + 0.093145I

a = −0.29248 + 1.41477I

b = 0.09646 + 1.48180I

5.82303 − 2.87870I 0.05391 + 2.88471I

u = −0.453394 − 0.093145I

a = −0.29248 − 1.41477I

b = 0.09646 − 1.48180I

5.82303 + 2.87870I 0.05391 − 2.88471I

u = 0.09947 + 1.57211I

a = −0.005582 + 0.932064I

b = −0.027777 − 0.190004I

5.22550 − 3.18763I 0

u = 0.09947 − 1.57211I

a = −0.005582 − 0.932064I

b = −0.027777 + 0.190004I

5.22550 + 3.18763I 0

u = −0.01154 + 1.67140I

a = −0.049530 + 0.747153I

b = 0.911882 − 0.498339I

10.24920 + 2.39200I 0

u = −0.01154 − 1.67140I

a = −0.049530 − 0.747153I

b = 0.911882 + 0.498339I

10.24920 − 2.39200I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.08120 + 1.67874I

a = 0.80016 + 1.97320I

b = 0.33059 − 1.55890I

16.9456 + 6.9601I 0

u = −0.08120 − 1.67874I

a = 0.80016 − 1.97320I

b = 0.33059 + 1.55890I

16.9456 − 6.9601I 0

u = 0.12364 + 1.71287I

a = 0.056715 + 0.692130I

b = −0.920998 − 0.474791I

10.09190 − 9.06080I 0

u = 0.12364 − 1.71287I

a = 0.056715 − 0.692130I

b = −0.920998 + 0.474791I

10.09190 + 9.06080I 0

u = −0.03891 + 1.71786I

a = −0.51740 − 2.10632I

b = −0.20263 + 1.61169I

18.9080 + 0.2132I 0

u = −0.03891 − 1.71786I

a = −0.51740 + 2.10632I

b = −0.20263 − 1.61169I

18.9080 − 0.2132I 0

u = 0.17216 + 1.75098I

a = −0.74841 + 1.91623I

b = −0.34100 − 1.54865I

16.6556 − 13.6886I 0

u = 0.17216 − 1.75098I

a = −0.74841 − 1.91623I

b = −0.34100 + 1.54865I

16.6556 + 13.6886I 0

u = 0.12140 + 1.76169I

a = 0.47312 − 2.07005I

b = 0.21928 + 1.60308I

18.7265 − 6.9926I 0

u = 0.12140 − 1.76169I

a = 0.47312 + 2.07005I

b = 0.21928 − 1.60308I

18.7265 + 6.9926I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.148412 + 0.075498I

a = 1.14844 + 3.46411I

b = 0.362523 + 0.421697I

−0.422743 − 1.307230I −4.54925 + 5.05506I

u = −0.148412 − 0.075498I

a = 1.14844 − 3.46411I

b = 0.362523 − 0.421697I

−0.422743 + 1.307230I −4.54925 − 5.05506I

II. I

= hu

+ 3u

a + · · · − 3a + 2, 2u

+ 3u

a + · · · + 6a

+ 10a, u

−

+ 4u

− 3u

+ 3u − 1i

(i) Arc colorings











−

− u

a + ··· + a −









−

− u

a + ··· + 2a −

−

− u

a + ··· + a −





−

− u

a + ··· + a −





+ ··· + a +

−

+ u

a + ··· + a +





−u









+ u





+ 1

+ 2u





+ 2u

− u

+ 3u

− 2u + 1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4u

+ 4u

− 16u

+ 12u − 14

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 10u

+ ··· + 3u − 1

, c

+ 5u

+ ··· + 3u + 1

, c

+ u

− u

+ u + 1)

, c

+ u

+ 4u

+ 3u

+ 3u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 10y

+ ··· + 47y − 1

, c

+ 10y

+ ··· + 3y − 1

, c

− y

+ 4y

− 3y

+ 3y − 1)

, c

+ 7y

+ 16y

+ 13y

+ 3y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.233677 + 0.885557I

a = −0.387789 − 0.623465I

b = −0.497623 + 0.756574I

1.81981 − 2.21397I −3.11432 + 4.22289I

u = 0.233677 + 0.885557I

a = 0.085680 − 0.388688I

b = 0.555046 + 0.543774I

1.81981 − 2.21397I −3.11432 + 4.22289I

u = 0.233677 + 0.885557I

a = −0.25505 + 3.12360I

b = −0.057423 − 1.300350I

1.81981 − 2.21397I −3.11432 + 4.22289I

u = 0.233677 − 0.885557I

a = −0.387789 + 0.623465I

b = −0.497623 − 0.756574I

1.81981 + 2.21397I −3.11432 − 4.22289I

u = 0.233677 − 0.885557I

a = 0.085680 + 0.388688I

b = 0.555046 − 0.543774I

1.81981 + 2.21397I −3.11432 − 4.22289I

u = 0.233677 − 0.885557I

a = −0.25505 − 3.12360I

b = −0.057423 + 1.300350I

1.81981 + 2.21397I −3.11432 − 4.22289I

u = 0.416284

a = −0.0435290

b = 0.366895

−0.882183 −11.6090

u = 0.416284

a = −2.38044 + 1.97405I

b = −0.183448 − 1.049270I

−0.882183 −11.6090

u = 0.416284

a = −2.38044 − 1.97405I

b = −0.183448 + 1.049270I

−0.882183 −11.6090

u = 0.05818 + 1.69128I

a = 0.091113 − 0.799543I

b = −0.778812 + 0.748610I

10.95830 − 3.33174I −2.08126 + 2.36228I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.05818 + 1.69128I

a = −0.117137 − 0.758678I

b = 0.789470 + 0.718695I

10.95830 − 3.33174I −2.08126 + 2.36228I

u = 0.05818 + 1.69128I

a = −0.01461 + 2.73936I

b = −0.01066 − 1.46731I

10.95830 − 3.33174I −2.08126 + 2.36228I

u = 0.05818 − 1.69128I

a = 0.091113 + 0.799543I

b = −0.778812 − 0.748610I

10.95830 + 3.33174I −2.08126 − 2.36228I

u = 0.05818 − 1.69128I

a = −0.117137 + 0.758678I

b = 0.789470 − 0.718695I

10.95830 + 3.33174I −2.08126 − 2.36228I

u = 0.05818 − 1.69128I

a = −0.01461 − 2.73936I

b = −0.01066 + 1.46731I

10.95830 + 3.33174I −2.08126 − 2.36228I

III.

= h−u

+b+a−3u+2, −2u

a−2u

+· · ·+4a+2, u

−u

+3u

−2u+1i

(i) Arc colorings











− u

− a + 3u − 2









− u

+ 3u − 2

− u

− a + 3u − 2





− u

+ 3u − 2

− u

− a + 4u − 2





a − u

a + 2u

+ 3au − u

− 2a + 5u − 1





−u

+ u

+ a − 3u + 2





−au − 1





+ u





+ 1

− u

+ 2u − 1





+ 2u

− u

+ 2u − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4u

− 4u

+ 12u − 12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

(u − 1)

, c

+ 1)

, c

− u

+ 3u

− 2u

+ 1

, c

− u

+ 3u

− 2u + 1)

, c

+ u

+ 3u

+ 2u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

(y − 1)

, c

(y + 1)

, c

− y

+ 3y

− 2y + 1)

, c

+ 5y

+ 7y

+ 2y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.395123 + 0.506844I

a = −0.956685 + 0.227186I

b = 1.000000I

−0.21101 − 1.41510I −7.82674 + 4.90874I

u = 0.395123 + 0.506844I

a = −0.95668 + 2.22719I

b = − 1.000000I

−0.21101 − 1.41510I −7.82674 + 4.90874I

u = 0.395123 − 0.506844I

a = −0.956685 − 0.227186I

b = − 1.000000I

−0.21101 + 1.41510I −7.82674 − 4.90874I

u = 0.395123 − 0.506844I

a = −0.95668 − 2.22719I

b = 1.000000I

−0.21101 + 1.41510I −7.82674 − 4.90874I

u = 0.10488 + 1.55249I

a = −0.043315 − 0.358800I

b = 1.000000I

6.79074 − 3.16396I −4.17326 + 2.56480I

u = 0.10488 + 1.55249I

a = −0.04332 + 1.64120I

b = − 1.000000I

6.79074 − 3.16396I −4.17326 + 2.56480I

u = 0.10488 − 1.55249I

a = −0.043315 + 0.358800I

b = − 1.000000I

6.79074 + 3.16396I −4.17326 − 2.56480I

u = 0.10488 − 1.55249I

a = −0.04332 − 1.64120I

b = 1.000000I

6.79074 + 3.16396I −4.17326 − 2.56480I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

+ 10u

+ ··· + 3u − 1)(u

+ 13u

+ ··· + 147u + 4)

, c

((u

+ 1)

)(u

+ 5u

+ ··· + 3u + 1)(u

− u

+ ··· − 11u + 2)

, c

((u

+ 1)

)(u

+ 5u

+ ··· + 3u + 1)(u

− u

+ ··· − 17u + 2)

, c

((u

+ u

− u

+ u + 1)

)(u

− u

+ 3u

− 2u

+ 1)(u

− 2u

+ ··· − u + 2)

, c

− u

+ 3u

− 2u + 1)

+ u

+ 4u

+ 3u

+ 3u + 1)

· (u

+ 8u

+ ··· − 19u + 4)

, c

+ u

+ 3u

+ 2u + 1)

+ u

+ 4u

+ 3u

+ 3u + 1)

· (u

+ 8u

+ ··· − 19u + 4)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y − 1)

)(y

− 10y

+ ··· + 47y − 1)(y

+ 41y

+ ··· − 1601y + 16)

, c

((y + 1)

)(y

+ 10y

+ ··· + 3y − 1)(y

+ 13y

+ ··· + 147y + 4)

, c

((y + 1)

)(y

+ 10y

+ ··· + 3y − 1)(y

+ 49y

+ ··· + 163y + 4)

, c

− y

+ 3y

− 2y + 1)

− y

+ 4y

− 3y

+ 3y − 1)

· (y

− 8y

+ ··· + 19y + 4)

, c

+ 5y

+ 7y

+ 2y + 1)

+ 7y

+ 16y

+ 13y

+ 3y − 1)

· (y

+ 52y

+ ··· − 593y + 16)