12a

0636

(K12a

0636

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,6

7 3 1

8,11

5 12 10 4 9

, c

Ideals for irreducible components

of X

par

= h−u

− 2u

+ ··· + b − 1, 7u

+ 15u

+ ··· + 2a + 11, u

+ 3u

+ ··· + 11u + 2i

= h−u

a − 8u

+ ··· − a − 10, −2u

a + 3u

+ ··· + a − 2,

− u

− 4u

+ 5u

+ 6u

− 10u

+ 7u

− 8u

+ 4u

+ 6u

− 8u

+ 2u

− 2u + 1i

= h−u

+ 2u

− u

− 2u

+ b + u, −u

− u

+ 3u

+ 2u

− 3u

− u

+ a − u + 2,

− 3u

+ 4u

− u

+ 1i

* 3 irreducible components of dim

= 0, with total 66 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

h−u

−2u

+· · ·+b−1, 7u

+15u

+· · ·+2a+11, u

+3u

+· · ·+11u+2i

(i) Arc colorings















−u

+ u





− u

+ u





− u

+ 1

− 2u

+ 2u





−

+ ··· − 31u −

+ 2u

+ ··· + 8u + 1





−

+ ··· − 6u −

−u

− u

+ ··· − 5u − 1





− 2u

+ u

+ 2u

− u

− 3u

+ 4u

− u

+ u





−

+ ··· − 39u −

+ 2u

+ ··· + 8u + 1





−

+ ··· − 2u −

−u

− u

+ ··· − 4u − 1





− 3u

+ 3u

+ 2u

− 4u

+ u

+ 1

− 4u

+ 7u

− 4u

− 2u

+ 4u

− u



(ii) Obstruction class = −1

(iii) Cusp Shapes = −2u

− 4u

+ 12u

+ 34u

− 22u

− 122u

− 30u

220u

+ 202u

− 140u

− 356u

− 190u

+ 202u

+ 434u

+ 198u

− 234u

−

362u

− 134u

+ 126u

+ 202u

+ 86u

− 38u

− 78u

− 32u

+ 4u + 18

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 15u

+ ··· + 17u + 4

, c

− 3u

+ ··· − 11u + 2

, c

+ 18u

+ ··· − u + 1

, c

− 9u

+ ··· − 215u + 26

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 7y

+ ··· + 207y + 16

, c

− 15y

+ ··· − 17y + 4

, c

+ 36y

+ ··· + 5y + 1

, c

+ 29y

+ ··· − 257y + 676

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.956817 + 0.396091I

a = −0.651697 + 0.991591I

b = 0.487266 + 0.268935I

−0.58961 + 3.47100I 5.92481 − 9.23773I

u = −0.956817 − 0.396091I

a = −0.651697 − 0.991591I

b = 0.487266 − 0.268935I

−0.58961 − 3.47100I 5.92481 + 9.23773I

u = −0.751125 + 0.602479I

a = −1.187320 − 0.581977I

b = 0.03078 + 1.53000I

−8.48939 + 2.35165I 0.61282 − 3.28103I

u = −0.751125 − 0.602479I

a = −1.187320 + 0.581977I

b = 0.03078 − 1.53000I

−8.48939 − 2.35165I 0.61282 + 3.28103I

u = 0.904845 + 0.273734I

a = 0.298839 + 0.531776I

b = 0.141020 + 0.376831I

−1.42636 − 1.11233I 0.498012 + 0.385891I

u = 0.904845 − 0.273734I

a = 0.298839 − 0.531776I

b = 0.141020 − 0.376831I

−1.42636 + 1.11233I 0.498012 − 0.385891I

u = −0.069667 + 0.918847I

a = 0.772660 + 0.797604I

b = −0.33361 + 1.64747I

−18.8709 − 8.2243I −1.19263 + 3.34279I

u = −0.069667 − 0.918847I

a = 0.772660 − 0.797604I

b = −0.33361 − 1.64747I

−18.8709 + 8.2243I −1.19263 − 3.34279I

u = −0.006971 + 0.822667I

a = −0.236714 − 0.504478I

b = 0.401873 − 0.547293I

−4.02599 − 1.44616I 4.11158 + 4.76185I

u = −0.006971 − 0.822667I

a = −0.236714 + 0.504478I

b = 0.401873 + 0.547293I

−4.02599 + 1.44616I 4.11158 − 4.76185I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.341936 + 0.725717I

a = −0.612752 + 0.286096I

b = 0.14424 − 1.56542I

−10.39290 − 4.06497I 0.32404 + 2.28928I

u = −0.341936 − 0.725717I

a = −0.612752 − 0.286096I

b = 0.14424 + 1.56542I

−10.39290 + 4.06497I 0.32404 − 2.28928I

u = −1.068130 + 0.547532I

a = 2.11393 − 1.03569I

b = −0.20016 − 1.55835I

−12.4889 + 8.8626I −2.32670 − 6.75099I

u = −1.068130 − 0.547532I

a = 2.11393 + 1.03569I

b = −0.20016 + 1.55835I

−12.4889 − 8.8626I −2.32670 + 6.75099I

u = 1.201580 + 0.188741I

a = −0.30204 − 2.23637I

b = −0.11408 − 1.65028I

−15.2170 + 1.3980I −5.67569 − 0.13534I

u = 1.201580 − 0.188741I

a = −0.30204 + 2.23637I

b = −0.11408 + 1.65028I

−15.2170 − 1.3980I −5.67569 + 0.13534I

u = 1.223020 + 0.456500I

a = −0.578173 − 0.689340I

b = −0.367731 − 0.587274I

−7.67362 − 3.10658I 0.75309 − 1.41288I

u = 1.223020 − 0.456500I

a = −0.578173 + 0.689340I

b = −0.367731 + 0.587274I

−7.67362 + 3.10658I 0.75309 + 1.41288I

u = −1.225690 + 0.460987I

a = 0.339499 − 1.317720I

b = −0.447158 − 0.574007I

−7.64611 + 6.04329I 0.84178 − 7.93478I

u = −1.225690 − 0.460987I

a = 0.339499 + 1.317720I

b = −0.447158 + 0.574007I

−7.64611 − 6.04329I 0.84178 + 7.93478I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.288060 + 0.430073I

a = 0.67479 + 2.08726I

b = 0.32678 + 1.67472I

16.3921 + 3.4886I −4.76966 − 0.45734I

u = 1.288060 − 0.430073I

a = 0.67479 − 2.08726I

b = 0.32678 − 1.67472I

16.3921 − 3.4886I −4.76966 + 0.45734I

u = −1.258780 + 0.509888I

a = −1.71248 + 2.27956I

b = 0.35659 + 1.64288I

16.9890 + 13.3492I −4.07199 − 6.35165I

u = −1.258780 − 0.509888I

a = −1.71248 − 2.27956I

b = 0.35659 − 1.64288I

16.9890 − 13.3492I −4.07199 + 6.35165I

u = −0.438383 + 0.308301I

a = 0.831459 − 0.008336I

b = −0.425812 + 0.076831I

0.801816 − 0.109645I 12.97054 + 1.47787I

u = −0.438383 − 0.308301I

a = 0.831459 + 0.008336I

b = −0.425812 − 0.076831I

0.801816 + 0.109645I 12.97054 − 1.47787I

II. I

h−u

a−8u

+· · ·−a−10, −2u

a+3u

+· · ·+a−2, u

−u

+· · ·−2u+1i

(i) Arc colorings















−u

+ u





− u

+ u





− u

+ 1

− 2u

+ 2u





0.727273u

+ 0.0909091au

+ ··· + 0.0909091a + 0.909091





0.272727au

− 0.363636u

+ ··· − 0.909091a + 0.727273

−0.363636au

− 0.181818au

+ ··· − 0.181818a − 0.909091





− 2u

+ u

+ 2u

− u

− 3u

+ 4u

− u

+ u





−0.727273u

− 0.0909091au

+ ··· + 0.909091a − 0.909091

0.727273u

+ 0.0909091au

+ ··· + 0.0909091a + 0.909091





0.727273au

+ 0.363636u

+ ··· + 0.909091a − 0.727273





− 3u

+ 3u

+ 2u

− 4u

+ u

+ 1

− 4u

+ 7u

− 4u

− 2u

+ 4u

− u



(ii) Obstruction class = −1

(iii) Cusp Shapes

= 4u

− 16u

+ 4u

+ 28u

− 12u

+ 16u

− 16u

+ 24u

− 8u

+ 6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 9u

+ ··· − 4u

+ 1)

, c

+ u

+ ··· − 2u − 1)

, c

+ u

+ ··· + 54u + 17

, c

+ 3u

+ ··· + 8u

− 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 5y

+ ··· + 8y −1)

, c

− 9y

+ ··· + 4y

− 1)

, c

+ 27y

+ ··· + 4428y + 289

, c

+ 19y

+ ··· + 16y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.023100 + 0.900040I

a = −0.360717 + 1.290430I

b = 0.10773 + 1.57610I

−11.31470 + 3.25615I 0.32867 − 2.40088I

u = 0.023100 + 0.900040I

a = 0.518581 − 0.298234I

b = −0.988185 − 0.651753I

−11.31470 + 3.25615I 0.32867 − 2.40088I

u = 0.023100 − 0.900040I

a = −0.360717 − 1.290430I

b = 0.10773 − 1.57610I

−11.31470 − 3.25615I 0.32867 + 2.40088I

u = 0.023100 − 0.900040I

a = 0.518581 + 0.298234I

b = −0.988185 + 0.651753I

−11.31470 − 3.25615I 0.32867 + 2.40088I

u = −0.863978

a = −1.75727 + 1.74904I

b = 0.234017 + 1.079020I

−4.54552 −4.48380

u = −0.863978

a = −1.75727 − 1.74904I

b = 0.234017 − 1.079020I

−4.54552 −4.48380

u = −1.093890 + 0.311098I

a = −0.115665 + 0.228205I

b = −0.603738 + 0.781085I

−6.68965 + 1.10849I −3.51398 − 0.68443I

u = −1.093890 + 0.311098I

a = 0.99897 − 2.63611I

b = −0.061421 − 1.364080I

−6.68965 + 1.10849I −3.51398 − 0.68443I

u = −1.093890 − 0.311098I

a = −0.115665 − 0.228205I

b = −0.603738 − 0.781085I

−6.68965 − 1.10849I −3.51398 + 0.68443I

u = −1.093890 − 0.311098I

a = 0.99897 + 2.63611I

b = −0.061421 + 1.364080I

−6.68965 − 1.10849I −3.51398 + 0.68443I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.747479 + 0.391613I

a = 1.293270 − 0.129521I

b = −0.046233 + 1.126590I

−2.04760 − 1.75942I 6.85085 + 5.01461I

u = 0.747479 + 0.391613I

a = −0.75255 + 1.32580I

b = 0.169565 − 0.296554I

−2.04760 − 1.75942I 6.85085 + 5.01461I

u = 0.747479 − 0.391613I

a = 1.293270 + 0.129521I

b = −0.046233 − 1.126590I

−2.04760 + 1.75942I 6.85085 − 5.01461I

u = 0.747479 − 0.391613I

a = −0.75255 − 1.32580I

b = 0.169565 + 0.296554I

−2.04760 + 1.75942I 6.85085 − 5.01461I

u = 1.070290 + 0.443484I

a = 0.982216 + 0.740855I

b = −0.692609 + 0.458051I

−5.70338 − 5.68434I −0.20490 + 7.47679I

u = 1.070290 + 0.443484I

a = −1.93478 − 1.79741I

b = 0.133299 − 1.346070I

−5.70338 − 5.68434I −0.20490 + 7.47679I

u = 1.070290 − 0.443484I

a = 0.982216 − 0.740855I

b = −0.692609 − 0.458051I

−5.70338 + 5.68434I −0.20490 − 7.47679I

u = 1.070290 − 0.443484I

a = −1.93478 + 1.79741I

b = 0.133299 + 1.346070I

−5.70338 + 5.68434I −0.20490 − 7.47679I

u = −1.268720 + 0.457284I

a = 0.836002 − 0.171074I

b = 1.000150 − 0.693082I

−15.2659 + 1.5494I −3.09602 − 0.66420I

u = −1.268720 + 0.457284I

a = −0.92571 + 2.56606I

b = −0.08422 + 1.59670I

−15.2659 + 1.5494I −3.09602 − 0.66420I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.268720 − 0.457284I

a = 0.836002 + 0.171074I

b = 1.000150 + 0.693082I

−15.2659 − 1.5494I −3.09602 + 0.66420I

u = −1.268720 − 0.457284I

a = −0.92571 − 2.56606I

b = −0.08422 − 1.59670I

−15.2659 − 1.5494I −3.09602 + 0.66420I

u = 1.260410 + 0.482704I

a = −0.16128 − 1.54115I

b = 1.020220 − 0.627490I

−15.0770 − 8.1923I −2.69502 + 5.35870I

u = 1.260410 + 0.482704I

a = 1.45407 + 2.60668I

b = −0.13370 + 1.58929I

−15.0770 − 8.1923I −2.69502 + 5.35870I

u = 1.260410 − 0.482704I

a = −0.16128 + 1.54115I

b = 1.020220 + 0.627490I

−15.0770 + 8.1923I −2.69502 − 5.35870I

u = 1.260410 − 0.482704I

a = 1.45407 − 2.60668I

b = −0.13370 − 1.58929I

−15.0770 + 8.1923I −2.69502 − 5.35870I

u = 0.193328 + 0.557909I

a = 0.736955 − 0.543574I

b = −0.057344 − 1.272060I

−3.31411 + 1.73642I 3.57231 − 4.08118I

u = 0.193328 + 0.557909I

a = −1.31209 − 0.67705I

b = 0.502458 + 0.520559I

−3.31411 + 1.73642I 3.57231 − 4.08118I

u = 0.193328 − 0.557909I

a = 0.736955 + 0.543574I

b = −0.057344 + 1.272060I

−3.31411 − 1.73642I 3.57231 + 4.08118I

u = 0.193328 − 0.557909I

a = −1.31209 + 0.67705I

b = 0.502458 − 0.520559I

−3.31411 − 1.73642I 3.57231 + 4.08118I

III. I

h−u

+2u

−u

−2u

+b+u, −u

−u

+· · ·+a+2, u

−3u

+4u

−u

+1i

(i) Arc colorings















−u

+ u





− u

+ u





− u

+ 1

− 2u

+ 2u





+ u

− 3u

− 2u

+ 3u

+ u

+ u − 2

− 2u

+ u

+ 2u

− u





− u

− 2u

+ 2u

− 2u

+ u

− u

−1





− 2u

+ u

+ 2u

− u





−u

+ u

+ 3u

− 3u

+ 3u

− u

+ u

+ 2u − 2

− 2u

+ u

+ 2u

− u





− u

− 2u

+ 2u

− 2u

+ u

− 2u

−u

+ u − 1





−u

+ 3u

− 3u

+ 1

− 2u

+ 2u



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4u

− 8u

+ 8u

+ 4u

− 4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 3u

+ 4u

− u

− u + 1)

, c

− 3u

+ 4u

− u

+ 1

, c

+ 1)

, c

+ 5u

+ 8u

+ 3u

− u

+ 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− y

+ 8y

− 3y

+ 3y −1)

, c

− 3y

+ 4y

− y

− y + 1)

, c

(y + 1)

, c

+ 5y

+ 8y

+ 3y

− y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.822375 + 0.339110I

a = −1.88547 − 1.25135I

b = 1.000000I

−3.61897 + 1.53058I −0.51511 − 4.43065I

u = −0.822375 − 0.339110I

a = −1.88547 + 1.25135I

b = − 1.000000I

−3.61897 − 1.53058I −0.51511 + 4.43065I

u = 0.822375 + 0.339110I

a = 0.32986 + 1.50891I

b = 1.000000I

−3.61897 − 1.53058I −0.51511 + 4.43065I

u = 0.822375 − 0.339110I

a = 0.32986 − 1.50891I

b = − 1.000000I

−3.61897 + 1.53058I −0.51511 − 4.43065I

u = 0.766826I

a = −0.821196 − 0.370286I

b = − 1.000000I

−5.69095 −1.48110

u = − 0.766826I

a = −0.821196 + 0.370286I

b = 1.000000I

−5.69095 −1.48110

u = −1.200150 + 0.455697I

a = 1.56305 − 1.07974I

b = − 1.000000I

−9.16243 + 4.40083I −4.74431 − 3.49859I

u = −1.200150 − 0.455697I

a = 1.56305 + 1.07974I

b = 1.000000I

−9.16243 − 4.40083I −4.74431 + 3.49859I

u = 1.200150 + 0.455697I

a = −0.186244 − 1.292420I

b = − 1.000000I

−9.16243 − 4.40083I −4.74431 + 3.49859I

u = 1.200150 − 0.455697I

a = −0.186244 + 1.292420I

b = 1.000000I

−9.16243 + 4.40083I −4.74431 − 3.49859I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− 3u

+ 4u

− u

− u + 1)

)(u

+ 9u

+ ··· − 4u

+ 1)

· (u

+ 15u

+ ··· + 17u + 4)

, c

− 3u

+ 4u

− u

+ 1)(u

+ u

+ ··· − 2u − 1)

· (u

− 3u

+ ··· − 11u + 2)

, c

((u

+ 1)

)(u

+ 18u

+ ··· − u + 1)(u

+ u

+ ··· + 54u + 17)

, c

+ 5u

+ 8u

+ 3u

− u

+ 1)(u

+ 3u

+ ··· + 8u

− 1)

· (u

− 9u

+ ··· − 215u + 26)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

− y

+ 8y

− 3y

+ 3y −1)

)(y

− 5y

+ ··· + 8y −1)

· (y

− 7y

+ ··· + 207y + 16)

, c

((y

− 3y

+ 4y

− y

− y + 1)

)(y

− 9y

+ ··· + 4y

− 1)

· (y

− 15y

+ ··· − 17y + 4)

, c

((y + 1)

)(y

+ 36y

+ ··· + 5y + 1)

· (y

+ 27y

+ ··· + 4428y + 289)

, c

((y

+ 5y

+ 8y

+ 3y

− y + 1)

)(y

+ 19y

+ ··· + 16y −1)

· (y

+ 29y

+ ··· − 257y + 676)