12a

0138

(K12a

0138

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

6,10

7 11 8

2,12

5 3 1 9 4

, c

Ideals for irreducible components

of X

par

= h7.19471 × 10

112

− 1.22414 × 10

111

+ ··· + 1.80916 × 10

b + 6.97020 × 10

− 1.81957 × 10

112

+ 3.28712 × 10

111

+ ··· + 1.80916 × 10

a − 1.87404 × 10

113

− 3u

112

+ ··· − 2u − 1i

= hb + a + 1, a

+ 3a + 3, u − 1i

* 2 irreducible components of dim

= 0, with total 115 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

= h7.19 × 10

112

− 1.22 × 10

111

+ · · · + 1.81 × 10

b + 6.97 ×

, −1.82 × 10

112

+ 3.29 × 10

111

+ · · · + 1.81 × 10

a − 1.87 ×

, u

113

− 3u

112

+ · · · − 2u − 1i

(i) Arc colorings















−u

+ u





−u

+ 1

−u

+ 2u





10.0575u

112

− 18.1693u

111

+ ··· + 29.5396u + 10.3586

−3.97683u

112

+ 6.76633u

111

+ ··· − 13.0851u − 3.85273





− 2u

−u

+ u





21.7820u

112

− 39.2061u

111

+ ··· + 48.7260u + 19.4581

−3.21144u

112

+ 5.39167u

111

+ ··· − 11.0344u − 4.09903





18.8353u

112

− 34.2427u

111

+ ··· + 38.5483u + 15.7723

−3.75718u

112

+ 6.19544u

111

+ ··· − 11.7379u − 4.57583





−2.58530u

112

+ 4.46215u

111

+ ··· − 2.91973u − 2.46253

0.126934u

112

− 0.107623u

111

+ ··· − 0.558030u − 0.562200





−u

+ 4u

− 4u

− 3u

+ 2u

+ u





15.1071u

112

− 28.0166u

111

+ ··· + 31.2262u + 13.6875

6.59937u

112

− 12.6329u

111

+ ··· + 16.3813u + 4.92547



(ii) Obstruction class = −1

(iii) Cusp Shapes = −21.9603u

112

+ 39.6262u

111

+ ··· − 14.3575u − 5.90643

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

113

+ 48u

112

+ ··· + 55u − 1

, c

113

+ 2u

112

+ ··· − 5u − 1

113

+ 60u

111

+ ··· − 47u + 1

113

+ 2u

112

+ ··· + 1009u + 347

, c

113

+ 3u

112

+ ··· − 2u + 1

113

+ 7u

112

+ ··· + u

+ 1

113

+ 23u

112

+ ··· + 6255814u + 309047

113

− 3u

112

+ ··· + 1280u − 1088

113

+ 11u

112

+ ··· + 12u + 4

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

113

+ 36y

112

+ ··· + 3831y −1

, c

113

+ 48y

112

+ ··· + 55y −1

113

+ 120y

112

+ ··· + 463y −1

113

+ 128y

112

+ ··· − 8247513y −120409

, c

113

− 103y

112

+ ··· − 2y −1

113

+ 9y

112

+ ··· − 2y −1

113

+ 53y

112

+ ··· − 1833344062454y −95510048209

113

− 17y

112

+ ··· + 72743552y −1183744

113

+ 15y

112

+ ··· − 280y −16

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.939909 + 0.317543I

a = 1.46055 − 0.18139I

b = −0.368917 + 0.830267I

−2.13808 − 1.37165I 0

u = 0.939909 − 0.317543I

a = 1.46055 + 0.18139I

b = −0.368917 − 0.830267I

−2.13808 + 1.37165I 0

u = 0.752167 + 0.473634I

a = 0.826598 + 0.274339I

b = −0.455174 − 0.969053I

−2.81213 + 1.98997I 0

u = 0.752167 − 0.473634I

a = 0.826598 − 0.274339I

b = −0.455174 + 0.969053I

−2.81213 − 1.98997I 0

u = −1.118790 + 0.027576I

a = −0.980417 − 0.453269I

b = 0.925019 + 0.474762I

0.74089 + 1.69233I 0

u = −1.118790 − 0.027576I

a = −0.980417 + 0.453269I

b = 0.925019 − 0.474762I

0.74089 − 1.69233I 0

u = 0.579977 + 0.611709I

a = 1.344920 + 0.261692I

b = −0.423750 + 0.967531I

−2.99500 − 3.68548I 0

u = 0.579977 − 0.611709I

a = 1.344920 − 0.261692I

b = −0.423750 − 0.967531I

−2.99500 + 3.68548I 0

u = 1.15862

a = 0.574458

b = 0.129833

−1.97009 0

u = 0.323055 + 0.768075I

a = 2.28499 − 0.15615I

b = −0.514948 + 0.996717I

−1.39021 − 6.40201I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.323055 − 0.768075I

a = 2.28499 + 0.15615I

b = −0.514948 − 0.996717I

−1.39021 + 6.40201I 0

u = −1.167310 + 0.082409I

a = −1.61291 − 0.08377I

b = 0.732275 + 1.080280I

−1.03203 + 4.35287I 0

u = −1.167310 − 0.082409I

a = −1.61291 + 0.08377I

b = 0.732275 − 1.080280I

−1.03203 − 4.35287I 0

u = 0.440456 + 0.694712I

a = 0.138212 + 0.304488I

b = −0.351572 − 0.923192I

−2.54432 − 0.78650I 0

u = 0.440456 − 0.694712I

a = 0.138212 − 0.304488I

b = −0.351572 + 0.923192I

−2.54432 + 0.78650I 0

u = −1.150760 + 0.263291I

a = 0.884861 − 0.795944I

b = −0.806370 + 0.549939I

1.48117 + 5.52965I 0

u = −1.150760 − 0.263291I

a = 0.884861 + 0.795944I

b = −0.806370 − 0.549939I

1.48117 − 5.52965I 0

u = −0.649038 + 0.499158I

a = 0.799156 − 0.174595I

b = −0.645108 + 1.123390I

−1.72359 − 10.60720I 0

u = −0.649038 − 0.499158I

a = 0.799156 + 0.174595I

b = −0.645108 − 1.123390I

−1.72359 + 10.60720I 0

u = −0.341872 + 0.735602I

a = 2.63336 − 0.13250I

b = −0.663628 − 1.137570I

−0.6241 + 14.8733I 0. − 10.48364I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.341872 − 0.735602I

a = 2.63336 + 0.13250I

b = −0.663628 + 1.137570I

−0.6241 − 14.8733I 0. + 10.48364I

u = 1.191890 + 0.019067I

a = −4.44997 + 2.27032I

b = 0.534866 − 0.855939I

−2.14131 − 2.15135I 0

u = 1.191890 − 0.019067I

a = −4.44997 − 2.27032I

b = 0.534866 + 0.855939I

−2.14131 + 2.15135I 0

u = −0.325971 + 0.717414I

a = 1.00912 − 1.43916I

b = −0.916275 + 0.452303I

1.46474 + 9.07915I 0. − 7.02875I

u = −0.325971 − 0.717414I

a = 1.00912 + 1.43916I

b = −0.916275 − 0.452303I

1.46474 − 9.07915I 0. + 7.02875I

u = −1.182760 + 0.306456I

a = 1.92843 − 0.18354I

b = −0.652135 − 1.054830I

−0.04028 + 10.99740I 0

u = −1.182760 − 0.306456I

a = 1.92843 + 0.18354I

b = −0.652135 + 1.054830I

−0.04028 − 10.99740I 0

u = −0.627370 + 0.450096I

a = 1.102860 − 0.068589I

b = −0.866470 − 0.442386I

0.32647 − 5.01240I −2.00000 + 1.72974I

u = −0.627370 − 0.450096I

a = 1.102860 + 0.068589I

b = −0.866470 + 0.442386I

0.32647 + 5.01240I −2.00000 − 1.72974I

u = −0.011515 + 0.764522I

a = 1.78598 − 1.34153I

b = −0.631765 + 1.016450I

3.55207 − 7.10523I 1.72920 + 7.58809I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.011515 − 0.764522I

a = 1.78598 + 1.34153I

b = −0.631765 − 1.016450I

3.55207 + 7.10523I 1.72920 − 7.58809I

u = −0.357793 + 0.666831I

a = −1.078110 − 0.253263I

b = −0.030920 + 1.288310I

−4.91041 + 6.36723I −6.53571 − 8.04968I

u = −0.357793 − 0.666831I

a = −1.078110 + 0.253263I

b = −0.030920 − 1.288310I

−4.91041 − 6.36723I −6.53571 + 8.04968I

u = 1.208510 + 0.330567I

a = 0.440418 + 0.637304I

b = −0.601288 − 0.975849I

−0.20340 + 3.14702I 0

u = 1.208510 − 0.330567I

a = 0.440418 − 0.637304I

b = −0.601288 + 0.975849I

−0.20340 − 3.14702I 0

u = 0.255939 + 0.693140I

a = 0.783379 + 1.097760I

b = −0.343556 − 0.527140I

−0.04039 − 2.38375I −1.98371 + 5.90852I

u = 0.255939 − 0.693140I

a = 0.783379 − 1.097760I

b = −0.343556 + 0.527140I

−0.04039 + 2.38375I −1.98371 − 5.90852I

u = −0.051929 + 0.725337I

a = 2.13698 + 0.72891I

b = −0.735643 − 0.596633I

4.81430 − 1.88544I 4.72473 + 1.60361I

u = −0.051929 − 0.725337I

a = 2.13698 − 0.72891I

b = −0.735643 + 0.596633I

4.81430 + 1.88544I 4.72473 − 1.60361I

u = −1.269840 + 0.138595I

a = −0.220884 + 0.428106I

b = 0.189644 + 1.136810I

−4.83804 + 4.63939I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.269840 − 0.138595I

a = −0.220884 − 0.428106I

b = 0.189644 − 1.136810I

−4.83804 − 4.63939I 0

u = −0.514108 + 0.503712I

a = 1.036330 − 0.361962I

b = −0.073302 − 1.239800I

−5.57728 − 2.46347I −8.69302 + 1.29328I

u = −0.514108 − 0.503712I

a = 1.036330 + 0.361962I

b = −0.073302 + 1.239800I

−5.57728 + 2.46347I −8.69302 − 1.29328I

u = 1.257620 + 0.290271I

a = 1.63911 + 0.39912I

b = −0.669510 + 0.656393I

0.76639 − 1.79202I 0

u = 1.257620 − 0.290271I

a = 1.63911 − 0.39912I

b = −0.669510 − 0.656393I

0.76639 + 1.79202I 0

u = −0.300733 + 0.634297I

a = −2.69044 + 0.24594I

b = 0.652286 + 1.200950I

0.19992 + 6.60671I 0.07217 − 12.10916I

u = −0.300733 − 0.634297I

a = −2.69044 − 0.24594I

b = 0.652286 − 1.200950I

0.19992 − 6.60671I 0.07217 + 12.10916I

u = 1.297840 + 0.027388I

a = 1.04790 − 1.63196I

b = 0.286338 − 0.747497I

−3.22613 − 1.48459I 0

u = 1.297840 − 0.027388I

a = 1.04790 + 1.63196I

b = 0.286338 + 0.747497I

−3.22613 + 1.48459I 0

u = 0.234136 + 0.628805I

a = 0.318271 + 0.979558I

b = 0.027002 − 0.471357I

−0.07346 − 2.33823I −3.38006 + 5.78977I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.234136 − 0.628805I

a = 0.318271 − 0.979558I

b = 0.027002 + 0.471357I

−0.07346 + 2.33823I −3.38006 − 5.78977I

u = −0.253157 + 0.618984I

a = −2.34577 + 0.07324I

b = 0.933553 + 0.670622I

2.57361 + 4.20982I 6.47955 − 9.14983I

u = −0.253157 − 0.618984I

a = −2.34577 − 0.07324I

b = 0.933553 − 0.670622I

2.57361 − 4.20982I 6.47955 + 9.14983I

u = 0.310571 + 0.587049I

a = −4.65059 − 1.98552I

b = 0.509350 − 0.916675I

−0.38515 − 3.92427I 1.8807 − 17.6364I

u = 0.310571 − 0.587049I

a = −4.65059 + 1.98552I

b = 0.509350 + 0.916675I

−0.38515 + 3.92427I 1.8807 + 17.6364I

u = −0.215249 + 0.601538I

a = −1.05368 + 1.43755I

b = 0.901782 − 0.257745I

2.97908 + 0.86642I 8.54734 − 2.47415I

u = −0.215249 − 0.601538I

a = −1.05368 − 1.43755I

b = 0.901782 + 0.257745I

2.97908 − 0.86642I 8.54734 + 2.47415I

u = 0.258441 + 0.568603I

a = −0.24006 − 3.99969I

b = 0.492878 + 0.781115I

0.063611 + 0.181588I −10.94547 − 7.12456I

u = 0.258441 − 0.568603I

a = −0.24006 + 3.99969I

b = 0.492878 − 0.781115I

0.063611 − 0.181588I −10.94547 + 7.12456I

u = 0.449623 + 0.413218I

a = 0.972889 − 0.131299I

b = −0.283957 + 0.017994I

−1.09683 − 0.93427I −5.40273 + 3.78636I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.449623 − 0.413218I

a = 0.972889 + 0.131299I

b = −0.283957 − 0.017994I

−1.09683 + 0.93427I −5.40273 − 3.78636I

u = 0.342240 + 0.503546I

a = −0.76992 + 2.58082I

b = 0.455400 + 0.907374I

−0.692652 + 0.747510I 11.9814 + 9.3471I

u = 0.342240 − 0.503546I

a = −0.76992 − 2.58082I

b = 0.455400 − 0.907374I

−0.692652 − 0.747510I 11.9814 − 9.3471I

u = 1.388180 + 0.206751I

a = 0.197810 − 0.570262I

b = 0.878563 + 0.906512I

−3.29106 − 0.71548I 0

u = 1.388180 − 0.206751I

a = 0.197810 + 0.570262I

b = 0.878563 − 0.906512I

−3.29106 + 0.71548I 0

u = 1.389330 + 0.229302I

a = 0.032086 − 1.016630I

b = 0.985524 + 0.169001I

−2.15273 − 3.89237I 0

u = 1.389330 − 0.229302I

a = 0.032086 + 1.016630I

b = 0.985524 − 0.169001I

−2.15273 + 3.89237I 0

u = −1.395280 + 0.228734I

a = 0.022173 − 0.456532I

b = 0.318153 + 0.529929I

−5.25575 + 5.40772I 0

u = −1.395280 − 0.228734I

a = 0.022173 + 0.456532I

b = 0.318153 − 0.529929I

−5.25575 − 5.40772I 0

u = −1.40251 + 0.22262I

a = 0.20905 + 2.11697I

b = 0.515171 − 0.727283I

−5.25799 + 2.73945I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.40251 − 0.22262I

a = 0.20905 − 2.11697I

b = 0.515171 + 0.727283I

−5.25799 − 2.73945I 0

u = 1.40136 + 0.23957I

a = −1.22459 − 0.93674I

b = 0.982381 − 0.722917I

−2.71907 − 7.34999I 0

u = 1.40136 − 0.23957I

a = −1.22459 + 0.93674I

b = 0.982381 + 0.722917I

−2.71907 + 7.34999I 0

u = 1.41292 + 0.18059I

a = 0.524545 + 1.034890I

b = 0.524820 + 1.235330I

−6.26506 + 1.08823I 0

u = 1.41292 − 0.18059I

a = 0.524545 − 1.034890I

b = 0.524820 − 1.235330I

−6.26506 − 1.08823I 0

u = −0.170323 + 0.538397I

a = −0.88005 + 2.08855I

b = 0.766888 − 0.937064I

1.75629 − 1.99035I 5.16557 + 2.88568I

u = −0.170323 − 0.538397I

a = −0.88005 − 2.08855I

b = 0.766888 + 0.937064I

1.75629 + 1.99035I 5.16557 − 2.88568I

u = −1.42218 + 0.20369I

a = −0.34383 − 2.55067I

b = 0.444068 − 0.949016I

−6.33252 + 1.92115I 0

u = −1.42218 − 0.20369I

a = −0.34383 + 2.55067I

b = 0.444068 + 0.949016I

−6.33252 − 1.92115I 0

u = −1.42009 + 0.23097I

a = −3.25951 + 2.43167I

b = 0.517759 + 0.941725I

−5.93096 + 6.95191I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.42009 − 0.23097I

a = −3.25951 − 2.43167I

b = 0.517759 − 0.941725I

−5.93096 − 6.95191I 0

u = 1.41833 + 0.24594I

a = −1.85416 − 1.51461I

b = 0.656040 − 1.242250I

−5.30356 − 9.83245I 0

u = 1.41833 − 0.24594I

a = −1.85416 + 1.51461I

b = 0.656040 + 1.242250I

−5.30356 + 9.83245I 0

u = −1.41588 + 0.27350I

a = 0.329476 − 0.665678I

b = −0.512649 + 0.438397I

−5.41815 + 5.90992I 0

u = −1.41588 − 0.27350I

a = 0.329476 + 0.665678I

b = −0.512649 − 0.438397I

−5.41815 − 5.90992I 0

u = −1.43811 + 0.15525I

a = 0.504046 + 0.022616I

b = −0.539058 − 0.039985I

−7.11566 + 3.06003I 0

u = −1.43811 − 0.15525I

a = 0.504046 − 0.022616I

b = −0.539058 + 0.039985I

−7.11566 − 3.06003I 0

u = −0.398416 + 0.372308I

a = 0.101682 − 0.109041I

b = 0.571816 − 1.141880I

−0.63076 − 3.31553I −3.36731 + 5.22677I

u = −0.398416 − 0.372308I

a = 0.101682 + 0.109041I

b = 0.571816 + 1.141880I

−0.63076 + 3.31553I −3.36731 − 5.22677I

u = 1.43515 + 0.27776I

a = 0.055806 + 1.047710I

b = −0.943067 − 0.441627I

−4.17674 − 12.70210I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.43515 − 0.27776I

a = 0.055806 − 1.047710I

b = −0.943067 + 0.441627I

−4.17674 + 12.70210I 0

u = 1.44154 + 0.25402I

a = −1.11991 − 1.00625I

b = −0.037074 − 1.326310I

−10.6833 − 9.7329I 0

u = 1.44154 − 0.25402I

a = −1.11991 + 1.00625I

b = −0.037074 + 1.326310I

−10.6833 + 9.7329I 0

u = 1.46055 + 0.12957I

a = 0.241626 + 0.379269I

b = −0.862769 + 0.364248I

−6.29480 + 3.09263I 0

u = 1.46055 − 0.12957I

a = 0.241626 − 0.379269I

b = −0.862769 − 0.364248I

−6.29480 − 3.09263I 0

u = 1.45869 + 0.17183I

a = 0.85005 + 1.43397I

b = −0.133037 + 1.269100I

−11.87960 + 0.03386I 0

u = 1.45869 − 0.17183I

a = 0.85005 − 1.43397I

b = −0.133037 − 1.269100I

−11.87960 − 0.03386I 0

u = −1.44081 + 0.29762I

a = 1.91997 − 0.94342I

b = −0.536367 − 1.027970I

−7.04207 + 10.26620I 0

u = −1.44081 − 0.29762I

a = 1.91997 + 0.94342I

b = −0.536367 + 1.027970I

−7.04207 − 10.26620I 0

u = 1.44413 + 0.28396I

a = 2.04970 + 1.30197I

b = −0.668248 + 1.151520I

−6.3507 − 18.5832I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.44413 − 0.28396I

a = 2.04970 − 1.30197I

b = −0.668248 − 1.151520I

−6.3507 + 18.5832I 0

u = −1.47202 + 0.09733I

a = 0.561177 + 0.898504I

b = −0.393349 + 1.066740I

−9.91084 − 0.41010I 0

u = −1.47202 − 0.09733I

a = 0.561177 − 0.898504I

b = −0.393349 − 1.066740I

−9.91084 + 0.41010I 0

u = −1.46861 + 0.24755I

a = −0.266045 + 0.691177I

b = −0.284580 + 0.961432I

−8.69432 + 4.18913I 0

u = −1.46861 − 0.24755I

a = −0.266045 − 0.691177I

b = −0.284580 − 0.961432I

−8.69432 − 4.18913I 0

u = 1.48401 + 0.12840I

a = 0.317785 − 0.970044I

b = −0.615816 − 1.140620I

−8.61039 + 8.53738I 0

u = 1.48401 − 0.12840I

a = 0.317785 + 0.970044I

b = −0.615816 + 1.140620I

−8.61039 − 8.53738I 0

u = −1.49411 + 0.17396I

a = 0.808586 − 1.159040I

b = −0.424875 − 1.041320I

−9.76386 + 6.40779I 0

u = −1.49411 − 0.17396I

a = 0.808586 + 1.159040I

b = −0.424875 + 1.041320I

−9.76386 − 6.40779I 0

u = −0.379605 + 0.069470I

a = 0.480908 + 0.316543I

b = 0.705236 − 0.554147I

1.26265 − 1.49033I 1.18213 + 3.24989I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.379605 − 0.069470I

a = 0.480908 − 0.316543I

b = 0.705236 + 0.554147I

1.26265 + 1.49033I 1.18213 − 3.24989I

u = 0.200253 + 0.310690I

a = 0.97283 + 1.24513I

b = 0.413444 − 0.932626I

−0.52263 − 2.65559I 2.07624 + 6.94674I

u = 0.200253 − 0.310690I

a = 0.97283 − 1.24513I

b = 0.413444 + 0.932626I

−0.52263 + 2.65559I 2.07624 − 6.94674I

II. I

= hb + a + 1, a

+ 3a + 3, u − 1i

(i) Arc colorings















−1









−a − 1





−1





2a + 4

−a − 2





a + 2

−a − 2





−1





−1





a + 2



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4a + 3

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1

+ u + 1

, c

(u − 1)

(u + 1)

, c

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1

, c

(y −1)

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = −1.50000 + 0.86603I

b = 0.500000 − 0.866025I

−1.64493 − 2.02988I −3.00000 + 3.46410I

u = 1.00000

a = −1.50000 − 0.86603I

b = 0.500000 + 0.866025I

−1.64493 + 2.02988I −3.00000 − 3.46410I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− u + 1)(u

113

+ 48u

112

+ ··· + 55u − 1)

+ u + 1)(u

113

+ 2u

112

+ ··· − 5u − 1)

− u + 1)(u

113

+ 60u

111

+ ··· − 47u + 1)

− u + 1)(u

113

+ 2u

112

+ ··· + 1009u + 347)

− u + 1)(u

113

+ 2u

112

+ ··· − 5u − 1)

, c

((u − 1)

)(u

113

+ 3u

112

+ ··· − 2u + 1)

((u − 1)

)(u

113

+ 7u

112

+ ··· + u

+ 1)

((u − 1)

)(u

113

+ 23u

112

+ ··· + 6255814u + 309047)

((u + 1)

)(u

113

+ 3u

112

+ ··· − 2u + 1)

113

− 3u

112

+ ··· + 1280u − 1088)

113

+ 11u

112

+ ··· + 12u + 4)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ y + 1)(y

113

+ 36y

112

+ ··· + 3831y −1)

, c

+ y + 1)(y

113

+ 48y

112

+ ··· + 55y −1)

+ y + 1)(y

113

+ 120y

112

+ ··· + 463y −1)

+ y + 1)(y

113

+ 128y

112

+ ··· − 8247513y −120409)

, c

((y −1)

)(y

113

− 103y

112

+ ··· − 2y −1)

((y −1)

)(y

113

+ 9y

112

+ ··· − 2y −1)

((y −1)

)(y

113

+ 53y

112

+ ··· − 1.83334 × 10

y −9.55100 × 10

)

113

− 17y

112

+ ··· + 7.27436 × 10

y −1183744)

113

+ 15y

112

+ ··· − 280y −16)