12n

0883

(K12n

0883

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,8 2,5

6 9 1 10 3 12 7 11

, c

Ideals for irreducible components

of X

par

= h1.59510 × 10

260

− 7.42718 × 10

260

+ ··· + 1.62945 × 10

263

b + 1.10045 × 10

264

2.38672 × 10

264

− 1.77424 × 10

264

+ ··· + 2.65600 × 10

265

a + 4.40019 × 10

267

− u

+ ··· + 5598u − 326i

= h4.71127 × 10

− 6.47791 × 10

+ ··· + 4.46458 × 10

b + 2.86340 × 10

2.26761 × 10

− 5.05266 × 10

+ ··· + 8.92916 × 10

a − 2.11962 × 10

, u

− 2u

+ ··· − 2u + 2i

* 2 irreducible components of dim

= 0, with total 89 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

= h1.60 × 10

260

− 7.43 × 10

260

+ · · · + 1.63 × 10

263

b + 1.10 ×

264

, 2.39 × 10

264

− 1.77 × 10

264

+ · · · + 2.66 × 10

265

a + 4.40 ×

267

, u

− u

+ · · · + 5598u − 326i

(i) Arc colorings











−0.0898616u

+ 0.0668011u

+ ··· + 1857.03u − 165.670

−0.000978922u

+ 0.00455810u

+ ··· + 61.7443u − 6.75351





−u





0.119212u

− 0.0882484u

+ ··· − 2414.13u + 212.151

−0.0136947u

+ 0.00153908u

+ ··· + 13.6473u + 5.88030









−0.0908405u

+ 0.0713592u

+ ··· + 1918.77u − 172.423

−0.000978922u

+ 0.00455810u

+ ··· + 61.7443u − 6.75351





−0.0359205u

+ 0.0140602u

+ ··· + 385.225u − 23.0840

−0.0189792u

+ 0.0123122u

+ ··· + 377.671u − 33.9102





−0.0963752u

+ 0.0735527u

+ ··· + 1908.00u − 163.170

−0.00161754u

+ 0.00623717u

+ ··· + 185.450u − 20.1627





−0.0908405u

+ 0.0713592u

+ ··· + 1918.77u − 172.423

0.00621827u

+ 0.00190635u

+ ··· − 17.6980u − 0.402606





0.0373943u

− 0.0234926u

+ ··· − 647.218u + 50.3563

−0.00842474u

− 0.00858578u

+ ··· − 196.363u + 22.7404





−0.0936309u

+ 0.100845u

+ ··· + 2668.46u − 251.034

−0.00234625u

− 0.00660391u

+ ··· − 141.177u + 11.7322



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.0737369u

− 0.0552753u

+ ··· − 1897.44u + 179.175

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 3u

+ ··· − 7855u − 844

+ 4u

+ ··· − 447u − 94

+ 22u

+ ··· + 4528u + 2690

, c

+ u

+ ··· + 5598u + 326

+ 2u

+ ··· − 96u − 10

− 5u

+ ··· − 1042u − 242

, c

− u

+ ··· + 8u + 2

+ 37u

+ ··· − 12439u + 1286

+ 2u

+ ··· + u + 2

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 61y

+ ··· − 33395831y −712336

− 10y

+ ··· + 187213y −8836

+ 44y

+ ··· − 160249076y −7236100

, c

− 71y

+ ··· + 10709628y −106276

+ 4y

+ ··· − 111724y −100

+ 29y

+ ··· − 1680780y −58564

, c

− 69y

+ ··· − 1868y −4

+ 74y

+ ··· − 48598167y −1653796

+ 70y

+ ··· − 99y −4

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.937388 + 0.169929I

a = 0.043478 − 0.742272I

b = −1.43395 + 0.18421I

−7.84748 − 8.49945I 0

u = −0.937388 − 0.169929I

a = 0.043478 + 0.742272I

b = −1.43395 − 0.18421I

−7.84748 + 8.49945I 0

u = −0.900734 + 0.543791I

a = −0.880354 + 0.906296I

b = −0.10421 − 1.57726I

−0.86538 + 2.81593I 0

u = −0.900734 − 0.543791I

a = −0.880354 − 0.906296I

b = −0.10421 + 1.57726I

−0.86538 − 2.81593I 0

u = 0.901600 + 0.002839I

a = −0.299924 − 1.023530I

b = −1.241240 + 0.577767I

−6.61914 + 0.01529I 0

u = 0.901600 − 0.002839I

a = −0.299924 + 1.023530I

b = −1.241240 − 0.577767I

−6.61914 − 0.01529I 0

u = −1.098090 + 0.089462I

a = −0.231231 + 0.492442I

b = 1.47104 − 0.43938I

−6.40650 + 1.70687I 0

u = −1.098090 − 0.089462I

a = −0.231231 − 0.492442I

b = 1.47104 + 0.43938I

−6.40650 − 1.70687I 0

u = 0.891922

a = −1.33838

b = −0.319994

−3.90346 0

u = 1.084820 + 0.583325I

a = 0.429051 + 0.576072I

b = 0.30747 − 1.40594I

−1.38126 + 4.86406I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.084820 − 0.583325I

a = 0.429051 − 0.576072I

b = 0.30747 + 1.40594I

−1.38126 − 4.86406I 0

u = 0.122701 + 0.739942I

a = −0.892972 + 0.209852I

b = 0.443092 + 0.333001I

−1.26816 − 1.18876I −2.82487 + 5.99212I

u = 0.122701 − 0.739942I

a = −0.892972 − 0.209852I

b = 0.443092 − 0.333001I

−1.26816 + 1.18876I −2.82487 − 5.99212I

u = −0.521137 + 0.477077I

a = 1.87070 + 2.12252I

b = −0.053829 − 0.734075I

−9.29987 + 6.46112I −3.09471 − 4.46072I

u = −0.521137 − 0.477077I

a = 1.87070 − 2.12252I

b = −0.053829 + 0.734075I

−9.29987 − 6.46112I −3.09471 + 4.46072I

u = 0.616847 + 0.305370I

a = 0.386621 − 0.542148I

b = 1.270370 − 0.229148I

−5.74954 + 1.06735I −12.5664 − 6.4993I

u = 0.616847 − 0.305370I

a = 0.386621 + 0.542148I

b = 1.270370 + 0.229148I

−5.74954 − 1.06735I −12.5664 + 6.4993I

u = 1.315000 + 0.102944I

a = −0.278028 + 1.229770I

b = 0.39050 − 1.53129I

2.43759 + 4.36021I 0

u = 1.315000 − 0.102944I

a = −0.278028 − 1.229770I

b = 0.39050 + 1.53129I

2.43759 − 4.36021I 0

u = 0.294280 + 0.543366I

a = 1.01357 − 1.53056I

b = 0.314876 − 0.875991I

−8.76029 + 1.21269I −5.57587 − 5.50908I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.294280 − 0.543366I

a = 1.01357 + 1.53056I

b = 0.314876 + 0.875991I

−8.76029 − 1.21269I −5.57587 + 5.50908I

u = −0.456789 + 0.317551I

a = −0.559476 + 0.192992I

b = −0.115002 + 0.434041I

0.98160 − 1.05730I 2.65855 + 2.72887I

u = −0.456789 − 0.317551I

a = −0.559476 − 0.192992I

b = −0.115002 − 0.434041I

0.98160 + 1.05730I 2.65855 − 2.72887I

u = 0.27792 + 1.43387I

a = 0.184504 − 0.104863I

b = 0.169303 − 0.837058I

−8.67747 + 0.45721I 0

u = 0.27792 − 1.43387I

a = 0.184504 + 0.104863I

b = 0.169303 + 0.837058I

−8.67747 − 0.45721I 0

u = −0.14990 + 1.48458I

a = 0.315672 + 0.178950I

b = 0.085797 − 0.238221I

−3.99806 − 3.95956I 0

u = −0.14990 − 1.48458I

a = 0.315672 − 0.178950I

b = 0.085797 + 0.238221I

−3.99806 + 3.95956I 0

u = 0.349929 + 0.366099I

a = −1.39394 + 0.39447I

b = 0.190178 + 0.220324I

−1.21862 − 0.72825I −4.93688 + 0.50068I

u = 0.349929 − 0.366099I

a = −1.39394 − 0.39447I

b = 0.190178 − 0.220324I

−1.21862 + 0.72825I −4.93688 − 0.50068I

u = 0.402832 + 0.287203I

a = −0.958411 − 0.330421I

b = 1.015600 + 0.448453I

−1.86231 − 1.13742I 2.46556 − 4.13256I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.402832 − 0.287203I

a = −0.958411 + 0.330421I

b = 1.015600 − 0.448453I

−1.86231 + 1.13742I 2.46556 + 4.13256I

u = −1.37941 + 0.63523I

a = 0.495306 − 1.088720I

b = 0.31114 + 1.68003I

1.20843 − 8.06995I 0

u = −1.37941 − 0.63523I

a = 0.495306 + 1.088720I

b = 0.31114 − 1.68003I

1.20843 + 8.06995I 0

u = −1.54862 + 0.18920I

a = 0.531241 − 0.765048I

b = −0.02146 + 1.56991I

2.62752 + 3.54439I 0

u = −1.54862 − 0.18920I

a = 0.531241 + 0.765048I

b = −0.02146 − 1.56991I

2.62752 − 3.54439I 0

u = 0.426848 + 0.055916I

a = 1.94065 − 0.16496I

b = 0.013936 + 0.901571I

−1.20775 − 4.21129I −4.14353 + 6.76110I

u = 0.426848 − 0.055916I

a = 1.94065 + 0.16496I

b = 0.013936 − 0.901571I

−1.20775 + 4.21129I −4.14353 − 6.76110I

u = −1.58578 + 0.06116I

a = 0.216735 + 0.784957I

b = −0.28573 − 1.56489I

2.33854 − 1.02618I 0

u = −1.58578 − 0.06116I

a = 0.216735 − 0.784957I

b = −0.28573 + 1.56489I

2.33854 + 1.02618I 0

u = −0.316446 + 0.256770I

a = −3.53853 − 1.87963I

b = 0.422485 − 0.553073I

−9.07448 + 1.51500I 2.38611 + 3.76927I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.316446 − 0.256770I

a = −3.53853 + 1.87963I

b = 0.422485 + 0.553073I

−9.07448 − 1.51500I 2.38611 − 3.76927I

u = −1.53034 + 0.45332I

a = 0.051803 − 1.168240I

b = 0.76970 + 1.51354I

−2.82820 − 6.39077I 0

u = −1.53034 − 0.45332I

a = 0.051803 + 1.168240I

b = 0.76970 − 1.51354I

−2.82820 + 6.39077I 0

u = 1.59807 + 0.28399I

a = 0.144623 + 1.087600I

b = 0.00268 − 1.61595I

7.27344 + 4.05568I 0

u = 1.59807 − 0.28399I

a = 0.144623 − 1.087600I

b = 0.00268 + 1.61595I

7.27344 − 4.05568I 0

u = 1.59921 + 0.31569I

a = −0.589281 − 0.847626I

b = −0.121264 + 1.185740I

0.519660 + 0.341918I 0

u = 1.59921 − 0.31569I

a = −0.589281 + 0.847626I

b = −0.121264 − 1.185740I

0.519660 − 0.341918I 0

u = −1.66807 + 0.10006I

a = −0.148154 + 0.990473I

b = −0.35286 − 1.39288I

5.90864 − 0.86319I 0

u = −1.66807 − 0.10006I

a = −0.148154 − 0.990473I

b = −0.35286 + 1.39288I

5.90864 + 0.86319I 0

u = 1.42486 + 0.88427I

a = −0.543349 − 0.812666I

b = −0.073113 + 1.322830I

0.34448 + 1.46095I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.42486 − 0.88427I

a = −0.543349 + 0.812666I

b = −0.073113 − 1.322830I

0.34448 − 1.46095I 0

u = −1.65530 + 0.35198I

a = −0.228611 − 1.013180I

b = 0.14810 + 1.42442I

4.34530 − 3.39833I 0

u = −1.65530 − 0.35198I

a = −0.228611 + 1.013180I

b = 0.14810 − 1.42442I

4.34530 + 3.39833I 0

u = 1.67896 + 0.56416I

a = −0.062341 − 0.915295I

b = −0.69881 + 1.44153I

−3.54897 + 7.24525I 0

u = 1.67896 − 0.56416I

a = −0.062341 + 0.915295I

b = −0.69881 − 1.44153I

−3.54897 − 7.24525I 0

u = 1.74673 + 0.30476I

a = 0.194566 − 0.972442I

b = −0.38911 + 1.61323I

3.46954 + 10.71400I 0

u = 1.74673 − 0.30476I

a = 0.194566 + 0.972442I

b = −0.38911 − 1.61323I

3.46954 − 10.71400I 0

u = 1.48603 + 0.98544I

a = 0.129346 + 1.000480I

b = 0.39902 − 1.52526I

0.25276 + 6.84890I 0

u = 1.48603 − 0.98544I

a = 0.129346 − 1.000480I

b = 0.39902 + 1.52526I

0.25276 − 6.84890I 0

u = −1.79984 + 0.31515I

a = −0.209297 + 1.015280I

b = 0.213560 − 1.208730I

4.92575 + 0.66345I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.79984 − 0.31515I

a = −0.209297 − 1.015280I

b = 0.213560 + 1.208730I

4.92575 − 0.66345I 0

u = 0.166218 + 0.017157I

a = 0.82946 + 4.69831I

b = −1.264600 + 0.167920I

−2.81269 + 4.67156I −3.12185 − 6.15405I

u = 0.166218 − 0.017157I

a = 0.82946 − 4.69831I

b = −1.264600 − 0.167920I

−2.81269 − 4.67156I −3.12185 + 6.15405I

u = −1.74104 + 0.69909I

a = −0.054215 + 1.043500I

b = −0.64425 − 1.54738I

−3.2595 − 15.9571I 0

u = −1.74104 − 0.69909I

a = −0.054215 − 1.043500I

b = −0.64425 + 1.54738I

−3.2595 + 15.9571I 0

u = −0.26113 + 1.90968I

a = 0.237425 − 0.276892I

b = −0.036362 + 0.960242I

−8.52014 + 6.77449I 0

u = −0.26113 − 1.90968I

a = 0.237425 + 0.276892I

b = −0.036362 − 0.960242I

−8.52014 − 6.77449I 0

u = 2.11120 + 0.09785I

a = 0.086951 + 0.988989I

b = 0.556942 − 1.075320I

0.48418 + 2.25326I 0

u = 2.11120 − 0.09785I

a = 0.086951 − 0.988989I

b = 0.556942 + 1.075320I

0.48418 − 2.25326I 0

II.

= h4.71 × 10

− 6.48 × 10

+ · · · + 4.46 × 10

b + 2.86 × 10

, 2.27 ×

−5.05×10

+· · ·+8.93×10

a−2.12×10

, u

−2u

+· · ·−2u+2i

(i) Arc colorings











−0.253955u

+ 0.565861u

+ ··· − 4.57373u + 2.37382

−0.105525u

+ 0.145096u

+ ··· − 0.367388u − 0.641359





−u





0.0104055u

− 0.126171u

+ ··· + 3.06894u − 0.296781

0.0899192u

− 0.130317u

+ ··· − 0.138878u + 0.437370









−0.359480u

+ 0.710956u

+ ··· − 4.94112u + 1.73246

−0.105525u

+ 0.145096u

+ ··· − 0.367388u − 0.641359





0.903364u

− 1.70724u

+ ··· + 6.10414u − 3.55956

0.179321u

− 0.253116u

+ ··· + 3.73612u + 0.00874632





0.315050u

− 1.00867u

+ ··· − 5.55543u − 6.78367

0.355127u

− 0.608260u

+ ··· + 3.13098u − 1.15233





−0.359480u

+ 0.710956u

+ ··· − 4.94112u + 1.73246

−0.206683u

+ 0.300685u

+ ··· − 1.07034u − 0.657368





−0.967208u

+ 1.77827u

+ ··· − 7.37065u + 3.15992

−0.0747343u

+ 0.110510u

+ ··· − 2.88862u − 0.711932





0.678448u

− 1.42392u

+ ··· + 7.26152u − 2.34715

0.0557314u

− 0.0278410u

+ ··· + 3.34451u + 0.244000



(ii) Obstruction class = 1

(iii) Cusp Shapes

21125193779764826

44645823690514751

−

46994070852762617

44645823690514751

+···+

128450800382224996

44645823690514751

u−

896563895668882454

44645823690514751

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 4u

+ ··· + 3u + 1

− 3u

+ ··· − 5u + 1

− u

+ ··· − 5u + 4

− 2u

+ ··· − 2u + 2

− 3u

+ ··· − 45u + 26

+ 7u

+ ··· − 2u + 2

− 12u

+ ··· − 5u + 2

+ 2u

+ ··· + 2u + 2

+ u

+ ··· + 14u + 7

− u

+ ··· + u + 1

, c

− 12u

+ ··· + 5u + 2

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 10y

+ ··· − 11y + 1

− y

+ ··· − 5y + 1

+ 17y

+ ··· + 215y + 16

, c

− 14y

+ ··· + 24y + 4

+ 13y

+ ··· − 10865y + 676

+ 14y

+ ··· + 32y + 4

, c

− 24y

+ ··· − 41y + 4

+ 11y

+ ··· − 378y + 49

− 3y

+ ··· + 11y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.445341 + 1.006900I

a = 0.378996 − 0.609489I

b = 0.475822 − 0.653916I

−9.54640 + 0.43274I −14.2472 + 0.4571I

u = 0.445341 − 1.006900I

a = 0.378996 + 0.609489I

b = 0.475822 + 0.653916I

−9.54640 − 0.43274I −14.2472 − 0.4571I

u = −0.305160 + 1.095290I

a = 0.017343 + 1.275150I

b = 0.472191 − 0.019528I

−10.53160 + 6.61475I −10.62909 − 4.57987I

u = −0.305160 − 1.095290I

a = 0.017343 − 1.275150I

b = 0.472191 + 0.019528I

−10.53160 − 6.61475I −10.62909 + 4.57987I

u = 0.819504 + 0.038714I

a = −0.461140 + 0.552148I

b = −1.156310 − 0.340346I

−5.16397 − 0.27439I −4.64612 + 0.00082I

u = 0.819504 − 0.038714I

a = −0.461140 − 0.552148I

b = −1.156310 + 0.340346I

−5.16397 + 0.27439I −4.64612 − 0.00082I

u = 0.054278 + 1.230410I

a = −0.163473 − 0.310256I

b = 0.599474 + 0.188835I

−4.48083 − 4.26522I −11.29736 + 6.83205I

u = 0.054278 − 1.230410I

a = −0.163473 + 0.310256I

b = 0.599474 − 0.188835I

−4.48083 + 4.26522I −11.29736 − 6.83205I

u = −1.396840 + 0.098244I

a = 0.477139 − 0.906250I

b = −0.11675 + 1.53608I

2.63581 + 2.60541I −3.56183 − 0.71884I

u = −1.396840 − 0.098244I

a = 0.477139 + 0.906250I

b = −0.11675 − 1.53608I

2.63581 − 2.60541I −3.56183 + 0.71884I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.33652 + 0.71442I

a = −0.185580 − 1.012890I

b = −0.48691 + 1.58830I

−0.48906 + 6.44073I −7.25375 − 5.52907I

u = 1.33652 − 0.71442I

a = −0.185580 + 1.012890I

b = −0.48691 − 1.58830I

−0.48906 − 6.44073I −7.25375 + 5.52907I

u = −0.291685 + 0.269932I

a = 1.83960 + 0.09965I

b = −0.920486 + 0.439782I

−2.17821 + 1.32113I −17.8526 − 7.1209I

u = −0.291685 − 0.269932I

a = 1.83960 − 0.09965I

b = −0.920486 − 0.439782I

−2.17821 − 1.32113I −17.8526 + 7.1209I

u = 0.164640 + 0.335831I

a = 2.58852 − 3.21941I

b = −0.684610 − 0.572192I

−9.34616 − 1.63192I −23.0792 + 7.1433I

u = 0.164640 − 0.335831I

a = 2.58852 + 3.21941I

b = −0.684610 + 0.572192I

−9.34616 + 1.63192I −23.0792 − 7.1433I

u = −1.76638 + 0.00494I

a = 0.060210 − 0.998278I

b = −0.323533 + 1.236200I

4.58999 + 1.40746I −3.39132 − 5.03852I

u = −1.76638 − 0.00494I

a = 0.060210 + 0.998278I

b = −0.323533 − 1.236200I

4.58999 − 1.40746I −3.39132 + 5.03852I

u = 1.93978 + 0.51365I

a = 0.448387 + 0.904270I

b = 0.141119 − 1.151680I

1.61171 + 0.65918I 1.95852 + 0.33886I

u = 1.93978 − 0.51365I

a = 0.448387 − 0.904270I

b = 0.141119 + 1.151680I

1.61171 − 0.65918I 1.95852 − 0.33886I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 4u

+ ··· + 3u + 1)(u

+ 3u

+ ··· − 7855u − 844)

− 3u

+ ··· − 5u + 1)(u

+ 4u

+ ··· − 447u − 94)

− u

+ ··· − 5u + 4)(u

+ 22u

+ ··· + 4528u + 2690)

− 2u

+ ··· − 2u + 2)(u

+ u

+ ··· + 5598u + 326)

− 3u

+ ··· − 45u + 26)(u

+ 2u

+ ··· − 96u − 10)

+ 7u

+ ··· − 2u + 2)(u

− 5u

+ ··· − 1042u − 242)

− 12u

+ ··· − 5u + 2)(u

− u

+ ··· + 8u + 2)

+ 2u

+ ··· + 2u + 2)(u

+ u

+ ··· + 5598u + 326)

+ u

+ ··· + 14u + 7)(u

+ 37u

+ ··· − 12439u + 1286)

− u

+ ··· + u + 1)(u

+ 2u

+ ··· + u + 2)

, c

− 12u

+ ··· + 5u + 2)(u

− u

+ ··· + 8u + 2)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 10y

+ ··· − 11y + 1)

· (y

+ 61y

+ ··· − 33395831y −712336)

− y

+ ··· − 5y + 1)(y

− 10y

+ ··· + 187213y −8836)

+ 17y

+ ··· + 215y + 16)

· (y

+ 44y

+ ··· − 160249076y −7236100)

, c

− 14y

+ ··· + 24y + 4)

· (y

− 71y

+ ··· + 10709628y −106276)

+ 13y

+ ··· − 10865y + 676)

· (y

+ 4y

+ ··· − 111724y −100)

+ 14y

+ ··· + 32y + 4)(y

+ 29y

+ ··· − 1680780y −58564)

, c

− 24y

+ ··· − 41y + 4)(y

− 69y

+ ··· − 1868y −4)

+ 11y

+ ··· − 378y + 49)

· (y

+ 74y

+ ··· − 48598167y −1653796)

− 3y

+ ··· + 11y + 1)(y

+ 70y

+ ··· − 99y −4)