12a

0200

(K12a

0200

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

1,8 4,9

10 12 7 5 6 11 3 2

, c

Ideals for irreducible components

of X

par

= h−9.88128 × 10

122

110

− 1.62216 × 10

123

109

+ ··· + 3.02078 × 10

122

b − 7.89614 × 10

122

2.57960 × 10

122

110

+ 4.87705 × 10

121

109

+ ··· + 3.02078 × 10

122

a + 1.07426 × 10

123

111

+ 3u

110

+ ··· + 8u

+ 1i

= hau + b + a, 5a

+ 3au − 4a − 3u + 5, u

− 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

= h−9.88 × 10

122

110

− 1.62 × 10

123

109

+ · · · + 3.02 × 10

122

b − 7.90 ×

122

, 2.58 × 10

122

110

+ 4.88 × 10

121

109

+ · · · + 3.02 × 10

122

a + 1.07 ×

123

, u

111

+ 3u

110

+ · · · + 8u

+ 1i

(i) Arc colorings











−0.853953u

110

− 0.161450u

109

+ ··· + 0.783670u − 3.55623

3.27110u

110

+ 5.37000u

109

+ ··· − 0.138489u + 2.61394





−u





−0.971252u

110

− 2.05773u

109

+ ··· + 0.169491u − 2.13738

2.96877u

110

+ 5.17690u

109

+ ··· − 1.37894u + 2.55675





−u





−u

+ 1





0.852901u

110

+ 2.69009u

109

+ ··· − 2.19989u − 2.77029

0.859350u

110

+ 1.76075u

109

+ ··· + 0.566412u + 1.25696





−1.70072u

110

− 2.81982u

109

+ ··· − 2.03552u − 0.407690

2.53069u

110

+ 3.23016u

109

+ ··· + 0.436662u + 1.31110





− 2u

−u

+ u





0.828171u

110

+ 2.49944u

109

+ ··· − 1.14740u − 2.51520

0.699867u

110

+ 1.64618u

109

+ ··· + 1.35387u + 1.06035





−0.551106u

110

− 1.46836u

109

+ ··· − 6.95085u − 2.33008

0.793459u

110

+ 1.82666u

109

+ ··· + 2.35156u + 0.541040



(ii) Obstruction class = −1

(iii) Cusp Shapes = 1.75758u

110

+ 2.71823u

109

+ ··· + 4.75842u + 0.341861

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

111

+ 49u

110

+ ··· + 3796u − 625

, c

111

+ 3u

110

+ ··· + 314u + 25

25(25u

111

− 35u

110

+ ··· + 277470u − 25993)

25(25u

111

+ 70u

110

+ ··· − 687u − 509)

, c

111

− 3u

110

+ ··· + 2u − 1

, c

111

− 3u

110

+ ··· − 8u

− 1

111

− u

110

+ ··· − 5600u − 2000

111

+ 9u

110

+ ··· + 89858u + 4589

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

111

+ 29y

110

+ ··· + 12462116y −390625

, c

111

+ 49y

110

+ ··· + 3796y −625

625(625y

111

− 10275y

110

+ ··· + 4.35687 × 10

y −6.75636 × 10

)

625(625y

111

− 23850y

110

+ ··· − 6.75091 × 10

y −259081)

, c

111

+ 61y

110

+ ··· − 16y −1

, c

111

− 99y

110

+ ··· − 16y −1

111

− 25y

110

+ ··· − 12720000y −4000000

111

+ 9y

110

+ ··· + 2636458452y −21058921

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.848451 + 0.533037I

a = −0.292158 + 0.517168I

b = 0.443974 − 0.962375I

0.42545 + 3.75946I 0

u = −0.848451 − 0.533037I

a = −0.292158 − 0.517168I

b = 0.443974 + 0.962375I

0.42545 − 3.75946I 0

u = 0.865725 + 0.468426I

a = 0.488857 + 0.754210I

b = −0.81665 − 1.59668I

−3.34824 − 9.97292I 0

u = 0.865725 − 0.468426I

a = 0.488857 − 0.754210I

b = −0.81665 + 1.59668I

−3.34824 + 9.97292I 0

u = 0.982269 + 0.291203I

a = −0.888257 + 0.097247I

b = 1.83582 + 0.03095I

−1.48534 + 4.18722I 0

u = 0.982269 − 0.291203I

a = −0.888257 − 0.097247I

b = 1.83582 − 0.03095I

−1.48534 − 4.18722I 0

u = −1.04175

a = 0.523490

b = −1.28841

1.68448 0

u = 1.030970 + 0.293300I

a = 0.423550 + 0.949718I

b = −1.22150 − 1.85782I

−6.34532 − 1.55715I 0

u = 1.030970 − 0.293300I

a = 0.423550 − 0.949718I

b = −1.22150 + 1.85782I

−6.34532 + 1.55715I 0

u = 0.998551 + 0.450677I

a = 0.840429 + 0.185787I

b = −1.53447 − 0.47057I

−3.85932 + 8.71416I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.998551 − 0.450677I

a = 0.840429 − 0.185787I

b = −1.53447 + 0.47057I

−3.85932 − 8.71416I 0

u = 0.807023 + 0.379878I

a = −0.522999 − 0.820927I

b = 0.90293 + 1.46137I

−1.05540 − 4.59060I 0

u = 0.807023 − 0.379878I

a = −0.522999 + 0.820927I

b = 0.90293 − 1.46137I

−1.05540 + 4.59060I 0

u = 0.173431 + 0.853663I

a = −1.187460 − 0.697715I

b = −0.0829174 + 0.0476338I

−6.42513 − 4.06910I −4.22635 + 4.84629I

u = 0.173431 − 0.853663I

a = −1.187460 + 0.697715I

b = −0.0829174 − 0.0476338I

−6.42513 + 4.06910I −4.22635 − 4.84629I

u = −0.282130 + 0.822678I

a = 1.56370 + 0.05524I

b = −0.0108961 + 0.0640512I

−1.36655 − 8.48240I 0. + 8.35925I

u = −0.282130 − 0.822678I

a = 1.56370 − 0.05524I

b = −0.0108961 − 0.0640512I

−1.36655 + 8.48240I 0. − 8.35925I

u = 0.263131 + 0.807594I

a = −2.28540 + 0.02260I

b = −0.0613055 + 0.0463861I

−5.2649 + 14.5040I 0. − 9.52744I

u = 0.263131 − 0.807594I

a = −2.28540 − 0.02260I

b = −0.0613055 − 0.0463861I

−5.2649 − 14.5040I 0. + 9.52744I

u = 0.333797 + 0.766731I

a = −0.847130 − 0.808429I

b = 0.145580 + 0.030472I

−6.77766 + 2.81025I −4.73274 − 4.72373I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.333797 − 0.766731I

a = −0.847130 + 0.808429I

b = 0.145580 − 0.030472I

−6.77766 − 2.81025I −4.73274 + 4.72373I

u = −0.678779 + 0.451474I

a = 0.128920 − 0.525934I

b = −0.306024 + 0.773797I

1.90849 − 0.65389I 7.58705 + 0.13678I

u = −0.678779 − 0.451474I

a = 0.128920 + 0.525934I

b = −0.306024 − 0.773797I

1.90849 + 0.65389I 7.58705 − 0.13678I

u = −1.120030 + 0.396848I

a = −0.447323 + 0.480647I

b = 0.88903 − 1.14435I

−1.02530 − 2.41413I 0

u = −1.120030 − 0.396848I

a = −0.447323 − 0.480647I

b = 0.88903 + 1.14435I

−1.02530 + 2.41413I 0

u = 0.255740 + 0.765219I

a = 2.44844 + 0.00182I

b = −0.0317545 − 0.0768044I

−2.89319 + 8.75711I 1.89232 − 6.34972I

u = 0.255740 − 0.765219I

a = 2.44844 − 0.00182I

b = −0.0317545 + 0.0768044I

−2.89319 − 8.75711I 1.89232 + 6.34972I

u = 0.668294 + 0.440594I

a = 0.381426 + 0.246199I

b = −0.946254 + 0.056017I

−5.52371 + 1.47662I −2.33166 − 2.56671I

u = 0.668294 − 0.440594I

a = 0.381426 − 0.246199I

b = −0.946254 − 0.056017I

−5.52371 − 1.47662I −2.33166 + 2.56671I

u = −0.279123 + 0.745093I

a = −1.66286 − 0.04574I

b = 0.0789298 − 0.0009419I

0.44879 − 3.45366I 5.32609 + 3.91559I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.279123 − 0.745093I

a = −1.66286 + 0.04574I

b = 0.0789298 + 0.0009419I

0.44879 + 3.45366I 5.32609 − 3.91559I

u = −0.095794 + 0.780536I

a = 1.64142 + 0.32093I

b = 0.1096960 − 0.0870152I

−4.17950 − 1.81846I −2.32506 + 3.35231I

u = −0.095794 − 0.780536I

a = 1.64142 − 0.32093I

b = 0.1096960 + 0.0870152I

−4.17950 + 1.81846I −2.32506 − 3.35231I

u = −1.218480 + 0.084617I

a = 1.246560 − 0.353208I

b = −1.66716 − 0.71596I

−0.44945 + 3.45531I 0

u = −1.218480 − 0.084617I

a = 1.246560 + 0.353208I

b = −1.66716 + 0.71596I

−0.44945 − 3.45531I 0

u = 0.164141 + 0.752127I

a = −2.62610 + 0.40767I

b = 0.162415 − 0.114911I

−8.97208 + 5.45730I −4.50761 − 5.50179I

u = 0.164141 − 0.752127I

a = −2.62610 − 0.40767I

b = 0.162415 + 0.114911I

−8.97208 − 5.45730I −4.50761 + 5.50179I

u = −1.241840 + 0.229749I

a = −1.170840 − 0.281032I

b = 2.24935 − 0.85873I

0.69363 − 1.61227I 0

u = −1.241840 − 0.229749I

a = −1.170840 + 0.281032I

b = 2.24935 + 0.85873I

0.69363 + 1.61227I 0

u = 0.171856 + 0.716149I

a = 1.23312 + 1.09879I

b = 0.074081 + 0.131507I

−3.97774 − 0.39890I −0.933790 − 0.131410I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.171856 − 0.716149I

a = 1.23312 − 1.09879I

b = 0.074081 − 0.131507I

−3.97774 + 0.39890I −0.933790 + 0.131410I

u = 1.263210 + 0.154487I

a = −0.77119 − 1.26137I

b = 0.90529 + 1.34726I

2.59030 − 0.80985I 0

u = 1.263210 − 0.154487I

a = −0.77119 + 1.26137I

b = 0.90529 − 1.34726I

2.59030 + 0.80985I 0

u = 1.306580 + 0.239131I

a = −2.36258 − 3.57462I

b = 1.74438 + 6.98773I

1.22033 + 4.76626I 0

u = 1.306580 − 0.239131I

a = −2.36258 + 3.57462I

b = 1.74438 − 6.98773I

1.22033 − 4.76626I 0

u = 1.332280 + 0.137029I

a = −1.26201 − 1.42638I

b = 3.20296 + 2.01883I

3.35257 − 2.44507I 0

u = 1.332280 − 0.137029I

a = −1.26201 + 1.42638I

b = 3.20296 − 2.01883I

3.35257 + 2.44507I 0

u = −0.172982 + 0.634595I

a = −0.36462 + 2.26997I

b = −0.012364 − 0.922385I

−3.15676 − 6.04076I −0.86742 + 10.32607I

u = −0.172982 − 0.634595I

a = −0.36462 − 2.26997I

b = −0.012364 + 0.922385I

−3.15676 + 6.04076I −0.86742 − 10.32607I

u = 1.329140 + 0.212562I

a = −0.98741 + 4.66926I

b = 4.54408 − 7.18236I

1.33372 + 0.95736I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.329140 − 0.212562I

a = −0.98741 − 4.66926I

b = 4.54408 + 7.18236I

1.33372 − 0.95736I 0

u = −0.038787 + 0.648227I

a = 2.76975 − 0.72668I

b = 0.949523 − 0.658677I

−2.97959 − 1.57809I 1.46253 + 6.32927I

u = −0.038787 − 0.648227I

a = 2.76975 + 0.72668I

b = 0.949523 + 0.658677I

−2.97959 + 1.57809I 1.46253 − 6.32927I

u = −1.341130 + 0.168721I

a = 0.836570 − 0.686707I

b = −2.39583 + 1.76770I

4.84645 − 0.43250I 0

u = −1.341130 − 0.168721I

a = 0.836570 + 0.686707I

b = −2.39583 − 1.76770I

4.84645 + 0.43250I 0

u = 1.323060 + 0.311518I

a = −1.23701 − 0.76718I

b = 2.21363 + 1.52328I

0.26439 + 5.73172I 0

u = 1.323060 − 0.311518I

a = −1.23701 + 0.76718I

b = 2.21363 − 1.52328I

0.26439 − 5.73172I 0

u = −1.349550 + 0.237179I

a = −0.353866 + 0.270005I

b = 1.45795 − 1.42502I

3.91673 − 6.31648I 0

u = −1.349550 − 0.237179I

a = −0.353866 − 0.270005I

b = 1.45795 + 1.42502I

3.91673 + 6.31648I 0

u = −1.359260 + 0.175859I

a = −0.295928 − 0.553147I

b = −0.46549 + 2.00688I

5.30135 − 0.37795I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.359260 − 0.175859I

a = −0.295928 + 0.553147I

b = −0.46549 − 2.00688I

5.30135 + 0.37795I 0

u = 1.364380 + 0.192376I

a = 1.090040 + 0.421563I

b = −1.79311 + 0.21609I

5.58685 + 3.51795I 0

u = 1.364380 − 0.192376I

a = 1.090040 − 0.421563I

b = −1.79311 − 0.21609I

5.58685 − 3.51795I 0

u = 1.363420 + 0.202853I

a = 1.25561 + 1.01262I

b = −2.57959 − 1.33084I

5.45029 + 3.78361I 0

u = 1.363420 − 0.202853I

a = 1.25561 − 1.01262I

b = −2.57959 + 1.33084I

5.45029 − 3.78361I 0

u = −1.365570 + 0.220575I

a = −1.02539 + 1.41423I

b = 2.90504 − 2.85866I

4.69045 − 6.87284I 0

u = −1.365570 − 0.220575I

a = −1.02539 − 1.41423I

b = 2.90504 + 2.85866I

4.69045 + 6.87284I 0

u = 1.360430 + 0.255439I

a = −1.067560 + 0.487762I

b = 1.34716 − 2.01980I

1.69884 + 9.29683I 0

u = 1.360430 − 0.255439I

a = −1.067560 − 0.487762I

b = 1.34716 + 2.01980I

1.69884 − 9.29683I 0

u = −1.367820 + 0.261256I

a = −0.296953 + 1.116880I

b = 0.34366 − 2.05651I

0.88982 − 3.11273I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.367820 − 0.261256I

a = −0.296953 − 1.116880I

b = 0.34366 + 2.05651I

0.88982 + 3.11273I 0

u = −1.358660 + 0.307497I

a = 1.47353 − 1.27627I

b = −3.02324 + 2.26120I

−4.16450 − 9.28584I 0

u = −1.358660 − 0.307497I

a = 1.47353 + 1.27627I

b = −3.02324 − 2.26120I

−4.16450 + 9.28584I 0

u = 0.131862 + 0.582545I

a = 1.70355 + 0.37972I

b = −0.055155 − 0.802252I

−0.78892 + 3.29378I 3.12146 − 3.00778I

u = 0.131862 − 0.582545I

a = 1.70355 − 0.37972I

b = −0.055155 + 0.802252I

−0.78892 − 3.29378I 3.12146 + 3.00778I

u = −1.355040 + 0.381279I

a = 0.383877 − 0.711688I

b = −0.76178 + 1.57252I

−1.62567 − 0.37101I 0

u = −1.355040 − 0.381279I

a = 0.383877 + 0.711688I

b = −0.76178 − 1.57252I

−1.62567 + 0.37101I 0

u = −1.40693 + 0.17203I

a = 0.268174 + 0.963385I

b = −0.422266 − 1.260740I

0.77219 − 3.38057I 0

u = −1.40693 − 0.17203I

a = 0.268174 − 0.963385I

b = −0.422266 + 1.260740I

0.77219 + 3.38057I 0

u = 0.199034 + 0.525414I

a = 3.35173 + 0.80061I

b = −0.535804 − 0.402837I

−0.26097 + 4.06974I 4.06125 − 10.23179I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.199034 − 0.525414I

a = 3.35173 − 0.80061I

b = −0.535804 + 0.402837I

−0.26097 − 4.06974I 4.06125 + 10.23179I

u = −1.40718 + 0.30970I

a = −1.37279 + 1.25640I

b = 2.84341 − 2.55407I

2.39755 − 12.65390I 0

u = −1.40718 − 0.30970I

a = −1.37279 − 1.25640I

b = 2.84341 + 2.55407I

2.39755 + 12.65390I 0

u = −0.116165 + 0.546238I

a = −1.84090 + 2.69502I

b = −0.97453 + 1.07717I

−3.19745 + 1.83468I 5.65877 − 0.22358I

u = −0.116165 − 0.546238I

a = −1.84090 − 2.69502I

b = −0.97453 − 1.07717I

−3.19745 − 1.83468I 5.65877 + 0.22358I

u = 1.41464 + 0.30140I

a = 1.061040 + 0.878788I

b = −2.18989 − 1.69422I

5.84224 + 7.26151I 0

u = 1.41464 − 0.30140I

a = 1.061040 − 0.878788I

b = −2.18989 + 1.69422I

5.84224 − 7.26151I 0

u = −1.41616 + 0.32878I

a = 1.36309 − 1.23228I

b = −2.71714 + 2.56206I

0.0783 − 18.6139I 0

u = −1.41616 − 0.32878I

a = 1.36309 + 1.23228I

b = −2.71714 − 2.56206I

0.0783 + 18.6139I 0

u = 1.42537 + 0.33368I

a = −1.021320 − 0.833669I

b = 2.11056 + 1.70902I

4.06837 + 12.66270I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.42537 − 0.33368I

a = −1.021320 + 0.833669I

b = 2.11056 − 1.70902I

4.06837 − 12.66270I 0

u = −1.46504 + 0.04615I

a = −0.339493 + 0.294163I

b = −0.118355 + 0.261619I

6.11070 + 3.64220I 0

u = −1.46504 − 0.04615I

a = −0.339493 − 0.294163I

b = −0.118355 − 0.261619I

6.11070 − 3.64220I 0

u = −1.45238 + 0.31120I

a = 0.178801 − 0.780640I

b = −0.49079 + 1.48727I

−1.04831 − 6.74954I 0

u = −1.45238 − 0.31120I

a = 0.178801 + 0.780640I

b = −0.49079 − 1.48727I

−1.04831 + 6.74954I 0

u = −1.50530 + 0.01500I

a = 0.265699 − 0.377681I

b = 0.244666 + 0.006083I

4.56452 + 9.01884I 0

u = −1.50530 − 0.01500I

a = 0.265699 + 0.377681I

b = 0.244666 − 0.006083I

4.56452 − 9.01884I 0

u = −0.221727 + 0.438815I

a = −2.12355 − 0.19578I

b = 0.325288 + 0.377375I

0.488487 − 1.269530I 6.63867 + 4.16913I

u = −0.221727 − 0.438815I

a = −2.12355 + 0.19578I

b = 0.325288 − 0.377375I

0.488487 + 1.269530I 6.63867 − 4.16913I

u = −0.243843 + 0.413937I

a = −1.14024 − 1.03218I

b = 0.158306 + 0.677699I

0.577620 − 1.139480I 7.59571 + 6.13511I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.243843 − 0.413937I

a = −1.14024 + 1.03218I

b = 0.158306 − 0.677699I

0.577620 + 1.139480I 7.59571 − 6.13511I

u = 1.51849 + 0.06536I

a = 0.149500 + 0.221635I

b = −0.095618 + 0.188264I

9.19692 + 2.36753I 0

u = 1.51849 − 0.06536I

a = 0.149500 − 0.221635I

b = −0.095618 − 0.188264I

9.19692 − 2.36753I 0

u = 0.261953 + 0.330905I

a = −1.54230 − 1.70626I

b = 0.557405 + 0.825682I

0.32554 − 1.70816I 6.47908 + 1.51201I

u = 0.261953 − 0.330905I

a = −1.54230 + 1.70626I

b = 0.557405 − 0.825682I

0.32554 + 1.70816I 6.47908 − 1.51201I

u = 1.61557 + 0.02903I

a = −0.0648338 − 0.0540396I

b = −0.089057 − 0.127793I

8.92369 − 2.15451I 0

u = 1.61557 − 0.02903I

a = −0.0648338 + 0.0540396I

b = −0.089057 + 0.127793I

8.92369 + 2.15451I 0

u = −0.362095 + 0.074063I

a = 2.75243 − 1.84793I

b = −0.834069 − 0.516392I

−1.43243 + 3.58403I 4.77704 − 2.61924I

u = −0.362095 − 0.074063I

a = 2.75243 + 1.84793I

b = −0.834069 + 0.516392I

−1.43243 − 3.58403I 4.77704 + 2.61924I

u = 0.166795 + 0.275988I

a = −2.86108 − 0.37335I

b = 0.432096 + 0.470414I

0.19884 − 1.52275I 0.827561 + 0.763000I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.166795 − 0.275988I

a = −2.86108 + 0.37335I

b = 0.432096 − 0.470414I

0.19884 + 1.52275I 0.827561 − 0.763000I

II. I

= hau + b + a, 5a

+ 3au − 4a − 3u + 5, u

− u − 1i

(i) Arc colorings











−au − a





−u − 1





−u − 1





−u





−u

u + 1





au + 2a

−3au − 2a





−u





−2u − 2





au + 2a

−7au − 5a





au + 2a + u − 1

−7au − 5a −

u −



(ii) Obstruction class = 1

(iii) Cusp Shapes =

387

au +

259

a +

u + 5

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

+ u + 1)

25(25u

+ 5u

+ 1)

25(25u

− 25u

+ 20u

− 5u + 1)

, c

− u − 1)

, c

+ u − 1)

− 3u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

625(25y

+ 5y + 1)

625(625y

+ 375y

+ 200y

+ 15y + 1)

, c

− 3y + 1)

− 7y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.618034

a = 0.585410 + 1.013960I

b = −0.223607 − 0.387298I

0.98696 − 2.02988I 6.94984 + 4.01951I

u = −0.618034

a = 0.585410 − 1.013960I

b = −0.223607 + 0.387298I

0.98696 + 2.02988I 6.94984 − 4.01951I

u = 1.61803

a = −0.085410 + 0.147935I

b = 0.223607 − 0.387298I

8.88264 + 2.02988I −9.1498 + 26.1898I

u = 1.61803

a = −0.085410 − 0.147935I

b = 0.223607 + 0.387298I

8.88264 − 2.02988I −9.1498 − 26.1898I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

111

+ 49u

110

+ ··· + 3796u − 625)

((u

+ u + 1)

)(u

111

+ 3u

110

+ ··· + 314u + 25)

625(25u

+ 5u

+ 1)(25u

111

− 35u

110

+ ··· + 277470u − 25993)

625(25u

− 25u

+ ··· − 5u + 1)(25u

111

+ 70u

110

+ ··· − 687u − 509)

((u

− u + 1)

)(u

111

+ 3u

110

+ ··· + 314u + 25)

((u

− u − 1)

)(u

111

− 3u

110

+ ··· + 2u − 1)

, c

((u

− u − 1)

)(u

111

− 3u

110

+ ··· − 8u

− 1)

111

− u

110

+ ··· − 5600u − 2000)

((u

+ u − 1)

)(u

111

− 3u

110

+ ··· + 2u − 1)

((u

− 3u + 1)

)(u

111

+ 9u

110

+ ··· + 89858u + 4589)

((u

+ u − 1)

)(u

111

− 3u

110

+ ··· − 8u

− 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

111

+ 29y

110

+ ··· + 1.24621 × 10

y −390625)

, c

((y

+ y + 1)

)(y

111

+ 49y

110

+ ··· + 3796y −625)

390625(25y

+ 5y + 1)

· (625y

111

− 10275y

110

+ ··· + 43568737248y −675636049)

390625(625y

+ 375y

+ 200y

+ 15y + 1)

· (625y

111

− 23850y

110

+ ··· − 67509053y −259081)

, c

((y

− 3y + 1)

)(y

111

+ 61y

110

+ ··· − 16y −1)

, c

((y

− 3y + 1)

)(y

111

− 99y

110

+ ··· − 16y −1)

111

− 25y

110

+ ··· − 1.27200 × 10

y −4000000)

((y

− 7y + 1)

)(y

111

+ 9y

110

+ ··· + 2.63646 × 10

y −2.10589 × 10

)