12n

0766

(K12n

0766

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,11

5,12

6 4 10 1 3 2 9

, c

Ideals for irreducible components

of X

par

= h4.30257 × 10

223

− 1.59534 × 10

224

+ ··· + 3.52832 × 10

224

b − 2.38648 × 10

226

− 1.18385 × 10

227

+ 4.85389 × 10

227

+ ··· + 1.03768 × 10

228

a + 1.60594 × 10

229

− 7u

+ ··· − 16845u − 2941i

= h−3.25053 × 10

− 6.44125 × 10

+ ··· + 2.54323 × 10

b − 7.68603 × 10

4.00630 × 10

+ 4.85877 × 10

+ ··· + 1.27162 × 10

a − 9.79215 × 10

, 2u

+ 3u

+ ··· + 3u + 5i

* 2 irreducible components of dim

= 0, with total 100 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

= h4.30 × 10

223

− 1.60 × 10

224

+ · · · + 3.53 × 10

224

b − 2.39 ×

226

, −1.18 × 10

227

+ 4.85 × 10

227

+ · · · + 1.04 × 10

228

a + 1.61 ×

229

, 2u

− 7u

+ · · · − 16845u − 2941i

(i) Arc colorings















0.114087u

− 0.467764u

+ ··· − 245.040u − 15.4763

−0.121944u

+ 0.452153u

+ ··· + 532.776u + 67.6377





−u





0.0868585u

− 0.413586u

+ ··· + 129.619u + 47.9189

−0.0947156u

+ 0.397975u

+ ··· + 158.117u + 4.24257





0.0617274u

− 0.381249u

+ ··· + 696.582u + 152.833

−0.0171680u

+ 0.135545u

+ ··· − 359.031u − 74.6220





−0.312963u

+ 0.836273u

+ ··· + 3468.82u + 582.248

0.351363u

− 0.929137u

+ ··· − 4120.61u − 695.633





0.286378u

− 1.50591u

+ ··· + 2610.83u + 594.370

−0.182080u

+ 1.24961u

+ ··· − 3728.07u − 779.031





0.665053u

− 3.07468u

+ ··· + 1842.56u + 551.877

−0.448541u

+ 2.43442u

+ ··· − 3955.59u − 895.987





0.275851u

− 1.31333u

+ ··· + 1415.83u + 352.827

−0.132560u

+ 0.746912u

+ ··· − 1432.05u − 319.676





−0.530006u

+ 1.62015u

+ ··· + 4466.85u + 715.631

0.503235u

− 1.26199u

+ ··· − 6391.55u − 1090.11



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.310330u

− 0.873656u

+ ··· − 3442.04u − 587.923

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

2(2u

− 3u

+ ··· + 5635u + 1357)

, c

− 2u

+ ··· − 215u + 91

, c

2(2u

+ 5u

+ ··· + 1357162u − 1267391)

+ 2u

+ ··· − 15076u + 11221

+ u

+ ··· + 15239u − 3254

, c

2(2u

+ 7u

+ ··· + 16845u − 2941)

+ u

+ ··· − 327620u − 108299

+ u

+ ··· − 2955u − 682

4(4u

− 55u

+ ··· − 5042508u + 189693)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

4(4y

− 365y

+ ··· − 4.76298 × 10

y + 1841449)

, c

+ 44y

+ ··· + 374559y + 8281

, c

4(4y

− 385y

+ ··· − 1.71162 × 10

y + 1.60628 × 10

)

+ 42y

+ ··· + 674142038y + 125910841

− 23y

+ ··· − 131821697y + 10588516

, c

4(4y

+ 223y

+ ··· + 5.75137 × 10

y + 8649481)

− 73y

+ ··· − 102167052718y + 11728673401

+ 27y

+ ··· + 11416983y + 465124

16(16y

− 1361y

+ ··· − 3.95388 × 10

y + 3.59834 × 10

)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.282540 + 0.965432I

a = 1.97958 − 0.61451I

b = −2.36679 + 0.10892I

5.94493 + 1.20153I 0

u = −0.282540 − 0.965432I

a = 1.97958 + 0.61451I

b = −2.36679 − 0.10892I

5.94493 − 1.20153I 0

u = −0.273716 + 0.955237I

a = 0.964437 + 0.589339I

b = −1.65206 − 1.31053I

−4.12089 + 2.31752I 0

u = −0.273716 − 0.955237I

a = 0.964437 − 0.589339I

b = −1.65206 + 1.31053I

−4.12089 − 2.31752I 0

u = 0.850496 + 0.543632I

a = 0.560041 − 0.577085I

b = 0.286399 + 0.141759I

−3.21620 − 2.62127I 0

u = 0.850496 − 0.543632I

a = 0.560041 + 0.577085I

b = 0.286399 − 0.141759I

−3.21620 + 2.62127I 0

u = 0.129802 + 0.975847I

a = −0.906793 − 0.098111I

b = 1.82693 − 1.49863I

1.63235 − 1.32777I 0

u = 0.129802 − 0.975847I

a = −0.906793 + 0.098111I

b = 1.82693 + 1.49863I

1.63235 + 1.32777I 0

u = 0.227538 + 0.989919I

a = −0.949692 + 0.421748I

b = 1.44010 + 0.70533I

−0.40348 − 4.84228I 0

u = 0.227538 − 0.989919I

a = −0.949692 − 0.421748I

b = 1.44010 − 0.70533I

−0.40348 + 4.84228I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.451986 + 0.911224I

a = −0.986328 + 0.186176I

b = 1.36894 − 0.72134I

−1.94739 − 2.05739I 0

u = 0.451986 − 0.911224I

a = −0.986328 − 0.186176I

b = 1.36894 + 0.72134I

−1.94739 + 2.05739I 0

u = −0.882267 + 0.418072I

a = 0.794732 + 0.966645I

b = 0.102572 + 0.568615I

−11.22430 − 3.31101I 0

u = −0.882267 − 0.418072I

a = 0.794732 − 0.966645I

b = 0.102572 − 0.568615I

−11.22430 + 3.31101I 0

u = −0.326030 + 1.001260I

a = 1.78729 − 0.35964I

b = −2.07467 + 0.41391I

8.32262 + 1.34742I 0

u = −0.326030 − 1.001260I

a = 1.78729 + 0.35964I

b = −2.07467 − 0.41391I

8.32262 − 1.34742I 0

u = 0.112227 + 0.923316I

a = −0.552088 − 1.134390I

b = 0.487672 − 0.685782I

1.41563 + 0.22117I −8.00000 + 0.I

u = 0.112227 − 0.923316I

a = −0.552088 + 1.134390I

b = 0.487672 + 0.685782I

1.41563 − 0.22117I −8.00000 + 0.I

u = 0.819659 + 0.410089I

a = −0.311016 + 1.351220I

b = −0.577110 − 0.608864I

−3.45418 + 3.81432I −8.00000 − 3.44974I

u = 0.819659 − 0.410089I

a = −0.311016 − 1.351220I

b = −0.577110 + 0.608864I

−3.45418 − 3.81432I −8.00000 + 3.44974I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.884708 + 0.626615I

a = −1.022130 − 0.689132I

b = 1.252530 − 0.402107I

−8.51884 − 2.65252I 0

u = 0.884708 − 0.626615I

a = −1.022130 + 0.689132I

b = 1.252530 + 0.402107I

−8.51884 + 2.65252I 0

u = −0.843390 + 0.327145I

a = 0.313849 + 1.164510I

b = 0.515054 − 0.008704I

−1.78911 − 2.87710I −11.42016 + 4.01103I

u = −0.843390 − 0.327145I

a = 0.313849 − 1.164510I

b = 0.515054 + 0.008704I

−1.78911 + 2.87710I −11.42016 − 4.01103I

u = 0.932065 + 0.593886I

a = −0.359516 − 0.399971I

b = −0.016925 + 0.207404I

−1.16017 + 1.30316I 0

u = 0.932065 − 0.593886I

a = −0.359516 + 0.399971I

b = −0.016925 − 0.207404I

−1.16017 − 1.30316I 0

u = −0.248102 + 1.112950I

a = 0.348133 + 0.638683I

b = −0.168692 + 0.673985I

2.02889 + 4.36880I 0

u = −0.248102 − 1.112950I

a = 0.348133 − 0.638683I

b = −0.168692 − 0.673985I

2.02889 − 4.36880I 0

u = −0.296484 + 1.119460I

a = −0.42766 + 1.64773I

b = 1.195140 − 0.619228I

−6.67297 + 7.19206I 0

u = −0.296484 − 1.119460I

a = −0.42766 − 1.64773I

b = 1.195140 + 0.619228I

−6.67297 − 7.19206I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.139612 + 1.164800I

a = −0.503559 + 0.439878I

b = 1.40916 + 0.71610I

2.38650 + 3.81134I 0

u = −0.139612 − 1.164800I

a = −0.503559 − 0.439878I

b = 1.40916 − 0.71610I

2.38650 − 3.81134I 0

u = −0.085205 + 0.815728I

a = 0.10305 − 2.33544I

b = −0.104807 + 0.812551I

−5.12415 − 0.44406I −5.45474 − 1.65343I

u = −0.085205 − 0.815728I

a = 0.10305 + 2.33544I

b = −0.104807 − 0.812551I

−5.12415 + 0.44406I −5.45474 + 1.65343I

u = −0.480089 + 1.115540I

a = −0.721167 − 0.211751I

b = 2.27508 + 1.18426I

−9.01588 + 8.24429I 0

u = −0.480089 − 1.115540I

a = −0.721167 + 0.211751I

b = 2.27508 − 1.18426I

−9.01588 − 8.24429I 0

u = −0.037495 + 1.218510I

a = 0.588125 − 0.286537I

b = −1.72908 − 0.14105I

3.51297 − 0.84853I 0

u = −0.037495 − 1.218510I

a = 0.588125 + 0.286537I

b = −1.72908 + 0.14105I

3.51297 + 0.84853I 0

u = −0.041616 + 1.282970I

a = 0.608968 − 0.136991I

b = −2.12837 + 0.42808I

3.82386 − 0.95845I 0

u = −0.041616 − 1.282970I

a = 0.608968 + 0.136991I

b = −2.12837 − 0.42808I

3.82386 + 0.95845I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.564418 + 0.431263I

a = −1.186740 + 0.350705I

b = 0.143898 − 0.524191I

2.33020 + 1.82399I −2.62562 − 4.08720I

u = −0.564418 − 0.431263I

a = −1.186740 − 0.350705I

b = 0.143898 + 0.524191I

2.33020 − 1.82399I −2.62562 + 4.08720I

u = 0.565832 + 1.189960I

a = 1.385630 − 0.142564I

b = −2.04227 + 0.69658I

−0.95117 − 9.06853I 0

u = 0.565832 − 1.189960I

a = 1.385630 + 0.142564I

b = −2.04227 − 0.69658I

−0.95117 + 9.06853I 0

u = −0.540516 + 1.218140I

a = −1.192520 − 0.017762I

b = 2.16082 + 0.66660I

1.05457 + 8.06406I 0

u = −0.540516 − 1.218140I

a = −1.192520 + 0.017762I

b = 2.16082 − 0.66660I

1.05457 − 8.06406I 0

u = 0.862645 + 1.082460I

a = −0.462609 − 0.839310I

b = 1.310950 + 0.310610I

−7.35921 − 3.79262I 0

u = 0.862645 − 1.082460I

a = −0.462609 + 0.839310I

b = 1.310950 − 0.310610I

−7.35921 + 3.79262I 0

u = −1.380710 + 0.230252I

a = 0.269437 − 0.278275I

b = 0.202962 + 0.463666I

−0.389474 − 0.354384I 0

u = −1.380710 − 0.230252I

a = 0.269437 + 0.278275I

b = 0.202962 − 0.463666I

−0.389474 + 0.354384I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.210951 + 1.392990I

a = 0.695783 − 0.339602I

b = −2.28329 − 0.58609I

−2.01031 − 5.75879I 0

u = 0.210951 − 1.392990I

a = 0.695783 + 0.339602I

b = −2.28329 + 0.58609I

−2.01031 + 5.75879I 0

u = 1.413210 + 0.032389I

a = 0.466955 − 0.622175I

b = 0.322562 − 0.042703I

−9.23639 + 9.54301I 0

u = 1.413210 − 0.032389I

a = 0.466955 + 0.622175I

b = 0.322562 + 0.042703I

−9.23639 − 9.54301I 0

u = −0.314553 + 0.484519I

a = −2.08380 + 0.18127I

b = 1.38082 + 1.62692I

−8.72504 − 4.53070I −9.46563 − 0.03654I

u = −0.314553 − 0.484519I

a = −2.08380 − 0.18127I

b = 1.38082 − 1.62692I

−8.72504 + 4.53070I −9.46563 + 0.03654I

u = 0.40349 + 1.40042I

a = 0.850562 − 0.225517I

b = −1.73948 + 0.45576I

4.66305 − 3.47646I 0

u = 0.40349 − 1.40042I

a = 0.850562 + 0.225517I

b = −1.73948 − 0.45576I

4.66305 + 3.47646I 0

u = −0.22989 + 1.46784I

a = 1.023780 + 0.634462I

b = −1.97633 − 0.61949I

8.50502 + 4.79512I 0

u = −0.22989 − 1.46784I

a = 1.023780 − 0.634462I

b = −1.97633 + 0.61949I

8.50502 − 4.79512I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.68098 + 1.32491I

a = −1.015860 − 0.099869I

b = 1.48438 + 0.51385I

3.51452 + 6.72221I 0

u = −0.68098 − 1.32491I

a = −1.015860 + 0.099869I

b = 1.48438 − 0.51385I

3.51452 − 6.72221I 0

u = 0.480013

a = −0.978637

b = 0.105834

−0.717809 −13.7110

u = −0.460554

a = −2.63177

b = 0.222685

−6.45678 −18.2290

u = 0.55731 + 1.44922I

a = −0.782460 + 0.229973I

b = 1.58134 − 0.58286I

3.10250 − 8.98573I 0

u = 0.55731 − 1.44922I

a = −0.782460 − 0.229973I

b = 1.58134 + 0.58286I

3.10250 + 8.98573I 0

u = 0.64625 + 1.43646I

a = −1.052510 + 0.238181I

b = 2.06068 − 0.85585I

−4.8082 − 16.5804I 0

u = 0.64625 − 1.43646I

a = −1.052510 − 0.238181I

b = 2.06068 + 0.85585I

−4.8082 + 16.5804I 0

u = −0.341097 + 0.196071I

a = −0.512603 + 0.829174I

b = 0.500629 + 0.652787I

−0.55991 − 1.68520I −3.94366 + 2.95348I

u = −0.341097 − 0.196071I

a = −0.512603 − 0.829174I

b = 0.500629 − 0.652787I

−0.55991 + 1.68520I −3.94366 − 2.95348I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.53573 + 1.88702I

a = −0.244801 + 0.238485I

b = 0.202955 − 0.369257I

−1.22442 + 0.74078I 0

u = 0.53573 − 1.88702I

a = −0.244801 − 0.238485I

b = 0.202955 + 0.369257I

−1.22442 − 0.74078I 0

u = 0.12508 + 2.04317I

a = 0.299929 − 0.278914I

b = −0.815962 + 0.338188I

−2.79671 + 1.13420I 0

u = 0.12508 − 2.04317I

a = 0.299929 + 0.278914I

b = −0.815962 − 0.338188I

−2.79671 − 1.13420I 0

II. I

= h−3.25 × 10

− 6.44 × 10

+ · · · + 2.54 × 10

b − 7.69 ×

, 4.01 × 10

+ 4.86 × 10

+ · · · + 1.27 × 10

a − 9.79 ×

, 2u

+ 3u

+ · · · + 3u + 5i

(i) Arc colorings















−3.15056u

− 3.82094u

+ ··· − 32.1591u + 7.70055

1.27811u

+ 2.53270u

+ ··· + 10.2992u + 3.02215





−u





−3.17174u

− 2.90632u

+ ··· − 34.5596u + 11.5016

1.29929u

+ 1.61808u

+ ··· + 12.6997u − 0.778933





−3.02056u

− 2.73307u

+ ··· − 28.3790u + 12.9849

1.04423u

+ 1.41495u

+ ··· + 8.63488u + 0.789972





−1.28799u

− 1.45837u

+ ··· − 24.5359u + 9.00385

0.947693u

+ 1.79106u

+ ··· + 14.4576u − 1.69050





4.14969u

+ 4.29557u

+ ··· + 59.5932u − 13.0060

−0.880620u

− 0.966252u

+ ··· − 19.0119u + 1.59597





0.182558u

− 0.176354u

+ ··· + 25.0268u − 7.11541

0.533120u

+ 1.45644u

+ ··· − 6.50589u + 6.77145





0.743734u

+ 0.470887u

+ ··· + 12.7345u − 0.708825

−0.796874u

− 0.999327u

+ ··· − 10.5483u + 2.03149





−3.07289u

− 3.63312u

+ ··· − 55.1391u + 17.4838

1.26243u

+ 2.27407u

+ ··· + 19.9727u − 4.31308



(ii) Obstruction class = 1

(iii) Cusp Shapes = −

8957706328472547967206

2543234894966602321649

−

15083092567838434344417

2543234894966602321649

+ ··· −

142260302926776775260119

2543234894966602321649

u −

54489073205343541583617

2543234894966602321649

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

2(2u

− 27u

+ ··· − 101u + 43)

− u

+ ··· + 3u + 1

2(2u

+ 7u

+ ··· + 2u + 1)

+ u

+ ··· + 60u + 31

+ 2u

+ ··· + u + 2

+ u

+ ··· − 3u + 1

2(2u

+ 3u

+ ··· + 3u + 5)

+ 4u

+ ··· − 2u + 1

2(2u

− 7u

+ ··· − 2u + 1)

+ 7u

+ ··· + u + 2

2(2u

− 3u

+ ··· − 3u + 5)

4(4u

− 11u

+ ··· − 74u + 19)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

4(4y

− 113y

+ ··· + 3645y + 1849)

, c

+ 7y

+ ··· + 15y + 1

, c

4(4y

− 37y

+ ··· + 4y + 1)

+ 21y

+ ··· + 4646y + 961

+ 20y

+ ··· + 103y + 4

, c

4(4y

+ 107y

+ ··· + 581y + 25)

− 6y

+ ··· + 14y + 1

+ 14y

+ ··· − y + 4

16(16y

− 545y

+ ··· − 6160y + 361)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.093841 + 1.031720I

a = −1.86117 − 0.11292I

b = 2.26755 − 0.34607I

6.38440 + 0.40642I −3.29683 + 1.73011I

u = −0.093841 − 1.031720I

a = −1.86117 + 0.11292I

b = 2.26755 + 0.34607I

6.38440 − 0.40642I −3.29683 − 1.73011I

u = −0.892339 + 0.285855I

a = −0.698036 + 0.392925I

b = −0.490163 − 0.492975I

−0.34275 + 1.53093I −9.99239 − 3.21099I

u = −0.892339 − 0.285855I

a = −0.698036 − 0.392925I

b = −0.490163 + 0.492975I

−0.34275 − 1.53093I −9.99239 + 3.21099I

u = 0.857561 + 0.346086I

a = 0.170569 − 0.299589I

b = −0.159930 + 0.592271I

−1.62614 + 1.72699I −14.2649 − 3.7983I

u = 0.857561 − 0.346086I

a = 0.170569 + 0.299589I

b = −0.159930 − 0.592271I

−1.62614 − 1.72699I −14.2649 + 3.7983I

u = −0.441215 + 1.028280I

a = −1.59099 + 0.55970I

b = 2.07746 − 0.27910I

8.13583 + 1.76508I −6.93534 − 8.95904I

u = −0.441215 − 1.028280I

a = −1.59099 − 0.55970I

b = 2.07746 + 0.27910I

8.13583 − 1.76508I −6.93534 + 8.95904I

u = 0.120572 + 1.131100I

a = 0.661863 + 0.339366I

b = −1.76827 + 1.10631I

2.95392 − 3.52625I 0.774646 + 0.743499I

u = 0.120572 − 1.131100I

a = 0.661863 − 0.339366I

b = −1.76827 − 1.10631I

2.95392 + 3.52625I 0.774646 − 0.743499I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.504964 + 0.668691I

a = 0.081169 + 1.214460I

b = −1.76357 − 0.68487I

−8.64330 − 6.02727I −9.72659 + 4.66930I

u = 0.504964 − 0.668691I

a = 0.081169 − 1.214460I

b = −1.76357 + 0.68487I

−8.64330 + 6.02727I −9.72659 − 4.66930I

u = 0.255755 + 1.173940I

a = −0.827640 + 0.464151I

b = 1.64429 + 0.44080I

0.39482 − 5.40053I −4.61104 + 7.42054I

u = 0.255755 − 1.173940I

a = −0.827640 − 0.464151I

b = 1.64429 − 0.44080I

0.39482 + 5.40053I −4.61104 − 7.42054I

u = 0.017834 + 1.281180I

a = −0.518334 + 0.025264I

b = 2.18360 − 0.78912I

3.97615 + 0.02420I −1.50757 + 0.97966I

u = 0.017834 − 1.281180I

a = −0.518334 − 0.025264I

b = 2.18360 + 0.78912I

3.97615 − 0.02420I −1.50757 − 0.97966I

u = 0.012793 + 0.520722I

a = 1.35963 + 1.19227I

b = −0.422136 + 1.022280I

0.84916 + 2.58424I −7.44172 − 4.08752I

u = 0.012793 − 0.520722I

a = 1.35963 − 1.19227I

b = −0.422136 − 1.022280I

0.84916 − 2.58424I −7.44172 + 4.08752I

u = −0.23818 + 1.50712I

a = −0.960593 − 0.604711I

b = 1.96189 + 0.59778I

8.27085 + 4.64071I −15.0125 + 3.7642I

u = −0.23818 − 1.50712I

a = −0.960593 + 0.604711I

b = 1.96189 − 0.59778I

8.27085 − 4.64071I −15.0125 − 3.7642I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.61918 + 1.41182I

a = 0.921209 + 0.081616I

b = −1.63904 − 0.46965I

4.53565 + 8.09953I −3.94785 − 6.19470I

u = −0.61918 − 1.41182I

a = 0.921209 − 0.081616I

b = −1.63904 + 0.46965I

4.53565 − 8.09953I −3.94785 + 6.19470I

u = −0.091702 + 0.419701I

a = −1.08553 − 3.39215I

b = 0.372307 + 0.860688I

−5.76127 + 0.88146I −14.4603 − 4.2768I

u = −0.091702 − 0.419701I

a = −1.08553 + 3.39215I

b = 0.372307 − 0.860688I

−5.76127 − 0.88146I −14.4603 + 4.2768I

u = −0.14302 + 2.03303I

a = −0.052154 + 0.337702I

b = 0.236008 − 0.418304I

−1.033050 + 0.572499I 0

u = −0.14302 − 2.03303I

a = −0.052154 − 0.337702I

b = 0.236008 + 0.418304I

−1.033050 − 0.572499I 0

III. u-Polynomials

Crossings u-Polynomials at each crossing

4(2u

− 27u

+ ··· − 101u + 43)(2u

− 3u

+ ··· + 5635u + 1357)

− u

+ ··· + 3u + 1)(u

− 2u

+ ··· − 215u + 91)

4(2u

+ 7u

+ ··· + 2u + 1)

· (2u

+ 5u

+ ··· + 1357162u − 1267391)

+ u

+ ··· + 60u + 31)(u

+ 2u

+ ··· − 15076u + 11221)

+ 2u

+ ··· + u + 2)(u

+ u

+ ··· + 15239u − 3254)

+ u

+ ··· − 3u + 1)(u

− 2u

+ ··· − 215u + 91)

4(2u

+ 3u

+ ··· + 3u + 5)(2u

+ 7u

+ ··· + 16845u − 2941)

+ 4u

+ ··· − 2u + 1)(u

+ u

+ ··· − 327620u − 108299)

4(2u

− 7u

+ ··· − 2u + 1)

· (2u

+ 5u

+ ··· + 1357162u − 1267391)

+ 7u

+ ··· + u + 2)(u

+ u

+ ··· − 2955u − 682)

4(2u

− 3u

+ ··· − 3u + 5)(2u

+ 7u

+ ··· + 16845u − 2941)

16(4u

− 11u

+ ··· − 74u + 19)

· (4u

− 55u

+ ··· − 5042508u + 189693)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

16(4y

− 113y

+ ··· + 3645y + 1849)

· (4y

− 365y

+ ··· − 476298283y + 1841449)

, c

+ 7y

+ ··· + 15y + 1)(y

+ 44y

+ ··· + 374559y + 8281)

, c

16(4y

− 37y

+ ··· + 4y + 1)

· (4y

− 385y

+ ··· − 17116221408916y + 1606279946881)

+ 21y

+ ··· + 4646y + 961)

· (y

+ 42y

+ ··· + 674142038y + 125910841)

+ 20y

+ ··· + 103y + 4)

· (y

− 23y

+ ··· − 131821697y + 10588516)

, c

16(4y

+ 107y

+ ··· + 581y + 25)

· (4y

+ 223y

+ ··· + 57513733y + 8649481)

− 6y

+ ··· + 14y + 1)

· (y

− 73y

+ ··· − 102167052718y + 11728673401)

+ 14y

+ ··· − y + 4)(y

+ 27y

+ ··· + 1.14170 × 10

y + 465124)

256(16y

− 545y

+ ··· − 6160y + 361)

· (16y

− 1361y

+ ··· − 3953884413420y + 35983434249)