12a

0061

(K12a

0061

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

8,12

9 1

4,10

7 3 2 6 11 5

, c

Ideals for irreducible components

of X

par

= h9.78678 × 10

+ 6.59298 × 10

+ ··· + 1.09528 × 10

b + 7.70863 × 10

1.13394 × 10

+ 7.80081 × 10

+ ··· + 5.47642 × 10

a + 9.43267 × 10

, u

100

+ 8u

+ ··· − 2u + 1i

= h2a

− 2a

+ 7a

− 5a

+ 3b + a − 4, a

+ 4a

+ a

+ 4a

+ 1, u − 1i

= hb, −u

+ a − u + 1, u

+ u

− 2u

− u

+ u − 1i

* 3 irreducible components of dim

= 0, with total 111 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.

= h9.79 × 10

+ 6.59 × 10

+ · · · + 1.10 × 10

b + 7.71 × 10

, 1.13 ×

+7.80×10

+· · ·+5.48×10

a+9.43×10

, u

100

+8u

+· · ·−2u+1i

(i) Arc colorings















−u

+ u





−207.058u

− 1424.44u

+ ··· + 486.994u − 172.242

−89.3539u

− 601.943u

+ ··· + 192.348u − 70.3803





−u

+ 1

−u

+ 2u





70.5297u

+ 463.919u

+ ··· − 137.456u + 47.4816

154.340u

+ 987.870u

+ ··· − 227.661u + 90.4459





−173.653u

− 1215.48u

+ ··· + 437.871u − 154.696

−46.3300u

− 355.564u

+ ··· + 185.885u − 61.7454





194.960u

+ 1330.52u

+ ··· − 438.893u + 154.655

135.876u

+ 888.170u

+ ··· − 235.645u + 90.8592





−83.8108u

− 523.951u

+ ··· + 90.2049u − 42.9643

154.340u

+ 987.870u

+ ··· − 227.661u + 90.4459





− 2u

+ u

− 3u

+ 2u

+ u





−9.87259u

− 93.4878u

+ ··· + 64.7923u − 23.7609

155.602u

+ 985.103u

+ ··· − 207.683u + 85.0368



(ii) Obstruction class = −1

(iii) Cusp Shapes = −10.1896u

− 65.6881u

+ ··· + 19.6205u − 12.0698

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

100

+ 53u

+ ··· + 7u + 1

, c

100

− 7u

+ ··· + 7u − 1

, c

100

− 2u

+ ··· + 64u + 32

, c

100

− 2u

+ ··· + 256u − 64

100

− 36u

+ ··· − 27136u + 1024

, c

100

− 8u

+ ··· + 2u + 1

100

+ 42u

+ ··· + 49152u + 4096

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

100

− 5y

+ ··· − 47y + 1

, c

100

− 53y

+ ··· − 7y + 1

, c

100

− 36y

+ ··· − 27136y + 1024

, c

100

+ 42y

+ ··· + 49152y + 4096

100

+ 48y

+ ··· − 43646976y + 1048576

, c

100

− 88y

+ ··· + 50y + 1

100

+ 22y

+ ··· + 461373440y + 16777216

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.792365 + 0.583090I

a = −0.108287 − 1.200450I

b = 0.930875 − 0.648990I

−4.34285 − 5.74414I 0

u = 0.792365 − 0.583090I

a = −0.108287 + 1.200450I

b = 0.930875 + 0.648990I

−4.34285 + 5.74414I 0

u = 0.916971 + 0.462976I

a = −0.49303 − 1.44425I

b = 0.631449 − 0.855660I

−4.67169 + 1.91587I 0

u = 0.916971 − 0.462976I

a = −0.49303 + 1.44425I

b = 0.631449 + 0.855660I

−4.67169 − 1.91587I 0

u = 0.854924 + 0.457908I

a = −0.197120 + 0.880397I

b = 0.740168 + 0.665579I

−4.91605 − 0.63546I 0

u = 0.854924 − 0.457908I

a = −0.197120 − 0.880397I

b = 0.740168 − 0.665579I

−4.91605 + 0.63546I 0

u = 0.985240 + 0.468511I

a = −0.090625 − 0.324021I

b = −0.994121 − 0.572049I

−0.62795 + 2.80874I 0

u = 0.985240 − 0.468511I

a = −0.090625 + 0.324021I

b = −0.994121 + 0.572049I

−0.62795 − 2.80874I 0

u = 0.245788 + 0.866914I

a = −0.97785 − 1.13640I

b = 1.096380 − 0.741421I

−1.10857 − 12.68640I 0

u = 0.245788 − 0.866914I

a = −0.97785 + 1.13640I

b = 1.096380 + 0.741421I

−1.10857 + 12.68640I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.10155

a = −3.46719

b = 0.399241

−3.66615 0

u = 0.981965 + 0.530171I

a = 0.362459 + 0.478732I

b = 1.057480 + 0.710417I

−3.35755 + 7.75902I 0

u = 0.981965 − 0.530171I

a = 0.362459 − 0.478732I

b = 1.057480 − 0.710417I

−3.35755 − 7.75902I 0

u = 1.109740 + 0.184312I

a = 0.91419 + 1.42574I

b = 0.008956 + 0.667628I

−2.33193 − 0.86861I 0

u = 1.109740 − 0.184312I

a = 0.91419 − 1.42574I

b = 0.008956 − 0.667628I

−2.33193 + 0.86861I 0

u = 0.366611 + 0.787435I

a = 0.320115 − 0.066003I

b = 0.851525 + 0.600589I

−3.05189 + 0.94281I 0

u = 0.366611 − 0.787435I

a = 0.320115 + 0.066003I

b = 0.851525 − 0.600589I

−3.05189 − 0.94281I 0

u = 0.225159 + 0.838843I

a = 1.14281 + 1.01802I

b = −1.069060 + 0.620828I

1.70469 − 7.47855I 0

u = 0.225159 − 0.838843I

a = 1.14281 − 1.01802I

b = −1.069060 − 0.620828I

1.70469 + 7.47855I 0

u = 0.725807 + 0.461764I

a = 0.402301 + 0.983247I

b = −0.701413 + 0.531818I

−1.60708 − 1.65045I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.725807 − 0.461764I

a = 0.402301 − 0.983247I

b = −0.701413 − 0.531818I

−1.60708 + 1.65045I 0

u = 0.248644 + 0.814575I

a = 0.208663 + 0.177564I

b = 0.626377 + 0.951799I

−2.59413 − 6.47615I 0

u = 0.248644 − 0.814575I

a = 0.208663 − 0.177564I

b = 0.626377 − 0.951799I

−2.59413 + 6.47615I 0

u = 0.261461 + 0.787835I

a = −1.45679 − 1.28675I

b = 0.854513 − 0.596814I

−3.04441 − 3.78909I 0

u = 0.261461 − 0.787835I

a = −1.45679 + 1.28675I

b = 0.854513 + 0.596814I

−3.04441 + 3.78909I 0

u = 1.151430 + 0.362450I

a = 0.074242 + 0.848861I

b = −1.113450 − 0.084513I

1.85816 + 1.15737I 0

u = 1.151430 − 0.362450I

a = 0.074242 − 0.848861I

b = −1.113450 + 0.084513I

1.85816 − 1.15737I 0

u = 0.096928 + 0.785410I

a = 1.335070 + 0.123554I

b = −1.190920 + 0.174139I

5.07427 − 5.31122I 0

u = 0.096928 − 0.785410I

a = 1.335070 − 0.123554I

b = −1.190920 − 0.174139I

5.07427 + 5.31122I 0

u = 0.246130 + 0.725103I

a = −0.0848543 − 0.0498703I

b = −0.415582 − 0.737311I

−0.10772 − 2.32956I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.246130 − 0.725103I

a = −0.0848543 + 0.0498703I

b = −0.415582 + 0.737311I

−0.10772 + 2.32956I 0

u = 0.463614 + 0.601800I

a = 0.012853 + 0.348824I

b = −0.667970 + 0.009377I

−0.89045 − 2.01572I 0. + 5.74366I

u = 0.463614 − 0.601800I

a = 0.012853 − 0.348824I

b = −0.667970 − 0.009377I

−0.89045 + 2.01572I 0. − 5.74366I

u = −1.233550 + 0.137329I

a = −0.191271 + 0.766083I

b = −1.174580 + 0.588727I

−2.36040 − 4.80176I 0

u = −1.233550 − 0.137329I

a = −0.191271 − 0.766083I

b = −1.174580 − 0.588727I

−2.36040 + 4.80176I 0

u = 0.037895 + 0.743132I

a = −1.42538 + 0.35004I

b = 1.181760 + 0.045592I

5.34208 − 0.12901I 4.42196 + 0.I

u = 0.037895 − 0.743132I

a = −1.42538 − 0.35004I

b = 1.181760 − 0.045592I

5.34208 + 0.12901I 4.42196 + 0.I

u = 1.222230 + 0.325361I

a = −0.06233 − 1.43523I

b = 1.128440 − 0.155903I

1.69954 − 3.74158I 0

u = 1.222230 − 0.325361I

a = −0.06233 + 1.43523I

b = 1.128440 + 0.155903I

1.69954 + 3.74158I 0

u = −1.252200 + 0.185808I

a = −0.010517 − 0.443621I

b = 1.172560 − 0.409152I

−0.341204 + 0.562695I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.252200 − 0.185808I

a = −0.010517 + 0.443621I

b = 1.172560 + 0.409152I

−0.341204 − 0.562695I 0

u = 1.287280 + 0.148947I

a = 1.36344 + 0.99627I

b = 0.524112 + 0.620549I

−2.83286 − 0.52713I 0

u = 1.287280 − 0.148947I

a = 1.36344 − 0.99627I

b = 0.524112 − 0.620549I

−2.83286 + 0.52713I 0

u = 1.31120

a = 1.32824

b = 0.620006

−2.89582 0

u = −1.303090 + 0.182442I

a = 0.070720 − 1.309680I

b = −0.360096 − 0.985799I

−5.02002 + 0.85235I 0

u = −1.303090 − 0.182442I

a = 0.070720 + 1.309680I

b = −0.360096 + 0.985799I

−5.02002 − 0.85235I 0

u = −1.293320 + 0.293444I

a = −0.168265 + 0.657605I

b = 1.246390 + 0.043739I

1.19623 + 3.85652I 0

u = −1.293320 − 0.293444I

a = −0.168265 − 0.657605I

b = 1.246390 − 0.043739I

1.19623 − 3.85652I 0

u = 1.324190 + 0.195201I

a = 0.33756 + 2.77633I

b = −0.812746 + 0.636934I

−5.93011 − 1.80289I 0

u = 1.324190 − 0.195201I

a = 0.33756 − 2.77633I

b = −0.812746 − 0.636934I

−5.93011 + 1.80289I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.332070 + 0.204154I

a = 0.957051 + 0.408621I

b = −0.885139 + 0.235664I

−6.07717 + 3.20988I 0

u = −1.332070 − 0.204154I

a = 0.957051 − 0.408621I

b = −0.885139 − 0.235664I

−6.07717 − 3.20988I 0

u = 1.331170 + 0.220010I

a = −1.62138 − 1.30155I

b = −0.642291 − 0.912589I

−5.58043 − 4.45730I 0

u = 1.331170 − 0.220010I

a = −1.62138 + 1.30155I

b = −0.642291 + 0.912589I

−5.58043 + 4.45730I 0

u = −1.333540 + 0.243178I

a = −0.386912 + 1.140080I

b = 0.045137 + 0.949523I

−4.05693 + 5.10453I 0

u = −1.333540 − 0.243178I

a = −0.386912 − 1.140080I

b = 0.045137 − 0.949523I

−4.05693 − 5.10453I 0

u = 1.332280 + 0.250714I

a = 0.00784 − 2.48123I

b = 1.028910 − 0.614240I

−1.40402 − 5.45414I 0

u = 1.332280 − 0.250714I

a = 0.00784 + 2.48123I

b = 1.028910 + 0.614240I

−1.40402 + 5.45414I 0

u = −0.170952 + 0.613820I

a = 1.25570 − 1.69291I

b = −1.093770 − 0.670282I

0.65018 + 7.34518I 0.51895 − 5.45269I

u = −0.170952 − 0.613820I

a = 1.25570 + 1.69291I

b = −1.093770 + 0.670282I

0.65018 − 7.34518I 0.51895 + 5.45269I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.323970 + 0.324415I

a = 0.183042 − 1.129600I

b = −1.247840 − 0.244639I

0.61856 + 9.30284I 0

u = −1.323970 − 0.324415I

a = 0.183042 + 1.129600I

b = −1.247840 + 0.244639I

0.61856 − 9.30284I 0

u = −0.099531 + 0.621357I

a = −1.48635 + 1.42762I

b = 1.060360 + 0.506724I

3.11950 + 2.26469I 3.95815 − 1.35279I

u = −0.099531 − 0.621357I

a = −1.48635 − 1.42762I

b = 1.060360 − 0.506724I

3.11950 − 2.26469I 3.95815 + 1.35279I

u = 0.113794 + 0.615400I

a = 0.185943 + 0.047421I

b = 0.088754 − 0.783282I

0.49975 − 1.97192I 0.59201 + 5.18081I

u = 0.113794 − 0.615400I

a = 0.185943 − 0.047421I

b = 0.088754 + 0.783282I

0.49975 + 1.97192I 0.59201 − 5.18081I

u = 1.377100 + 0.142626I

a = −1.83734 − 0.89104I

b = −0.884984 − 0.635023I

−5.70432 + 3.16921I 0

u = 1.377100 − 0.142626I

a = −1.83734 + 0.89104I

b = −0.884984 + 0.635023I

−5.70432 − 3.16921I 0

u = 1.364170 + 0.252445I

a = −0.18857 + 2.63975I

b = −1.073640 + 0.734262I

−4.22710 − 10.53650I 0

u = 1.364170 − 0.252445I

a = −0.18857 − 2.63975I

b = −1.073640 − 0.734262I

−4.22710 + 10.53650I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.39739 + 0.30031I

a = −0.952776 + 0.849121I

b = −0.476545 + 0.876372I

−5.32452 + 6.07526I 0

u = −1.39739 − 0.30031I

a = −0.952776 − 0.849121I

b = −0.476545 − 0.876372I

−5.32452 − 6.07526I 0

u = −1.40340 + 0.34734I

a = 0.28718 − 2.05993I

b = −1.100920 − 0.667509I

−3.46457 + 11.75370I 0

u = −1.40340 − 0.34734I

a = 0.28718 + 2.05993I

b = −1.100920 + 0.667509I

−3.46457 − 11.75370I 0

u = −1.41011 + 0.31923I

a = −0.63289 + 2.12092I

b = 0.931488 + 0.614497I

−8.35832 + 7.79358I 0

u = −1.41011 − 0.31923I

a = −0.63289 − 2.12092I

b = 0.931488 − 0.614497I

−8.35832 − 7.79358I 0

u = −1.40968 + 0.33237I

a = 1.20654 − 0.93297I

b = 0.655003 − 1.003640I

−7.86542 + 10.61720I 0

u = −1.40968 − 0.33237I

a = 1.20654 + 0.93297I

b = 0.655003 + 1.003640I

−7.86542 − 10.61720I 0

u = −0.070844 + 0.542854I

a = −0.663591 − 0.173609I

b = −0.512497 + 0.878097I

−1.11676 + 1.63882I −1.15180 − 1.38360I

u = −0.070844 − 0.542854I

a = −0.663591 + 0.173609I

b = −0.512497 − 0.878097I

−1.11676 − 1.63882I −1.15180 + 1.38360I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.41825 + 0.35738I

a = −0.19419 + 2.22344I

b = 1.111790 + 0.773357I

−6.3975 + 17.0949I 0

u = −1.41825 − 0.35738I

a = −0.19419 − 2.22344I

b = 1.111790 − 0.773357I

−6.3975 − 17.0949I 0

u = −1.44935 + 0.20132I

a = −0.689559 − 0.441917I

b = −0.595033 − 0.126320I

−7.03499 + 4.85145I 0

u = −1.44935 − 0.20132I

a = −0.689559 + 0.441917I

b = −0.595033 + 0.126320I

−7.03499 − 4.85145I 0

u = −1.47182 + 0.03699I

a = −0.69034 − 1.63645I

b = −0.845947 − 0.756360I

−8.89073 + 2.84281I 0

u = −1.47182 − 0.03699I

a = −0.69034 + 1.63645I

b = −0.845947 + 0.756360I

−8.89073 − 2.84281I 0

u = −1.45081 + 0.29045I

a = 1.203110 − 0.440312I

b = 0.764537 − 0.621264I

−8.88672 + 2.93045I 0

u = −1.45081 − 0.29045I

a = 1.203110 + 0.440312I

b = 0.764537 + 0.621264I

−8.88672 − 2.93045I 0

u = −1.48199 + 0.00967I

a = 0.60989 − 1.90109I

b = 0.811592 − 0.838116I

−12.66580 + 1.42958I 0

u = −1.48199 − 0.00967I

a = 0.60989 + 1.90109I

b = 0.811592 + 0.838116I

−12.66580 − 1.42958I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.51208 + 0.04921I

a = 0.94033 + 1.66888I

b = 0.947379 + 0.764253I

−12.2192 + 7.4080I 0

u = −1.51208 − 0.04921I

a = 0.94033 − 1.66888I

b = 0.947379 − 0.764253I

−12.2192 − 7.4080I 0

u = 0.023033 + 0.467596I

a = 2.55414 − 1.74263I

b = −0.675269 − 0.423151I

−1.65128 − 0.65806I −0.515801 − 1.165772I

u = 0.023033 − 0.467596I

a = 2.55414 + 1.74263I

b = −0.675269 + 0.423151I

−1.65128 + 0.65806I −0.515801 + 1.165772I

u = −0.299051 + 0.324781I

a = −1.50249 − 0.37524I

b = −0.998992 + 0.562705I

−0.44144 − 4.99052I 1.47251 + 5.10258I

u = −0.299051 − 0.324781I

a = −1.50249 + 0.37524I

b = −0.998992 − 0.562705I

−0.44144 + 4.99052I 1.47251 − 5.10258I

u = −0.240767 + 0.153669I

a = 2.02139 + 0.62079I

b = 0.898531 − 0.269343I

1.51367 − 0.61388I 6.21394 + 0.64261I

u = −0.240767 − 0.153669I

a = 2.02139 − 0.62079I

b = 0.898531 + 0.269343I

1.51367 + 0.61388I 6.21394 − 0.64261I

u = 0.065460 + 0.176095I

a = 4.22561 − 2.33746I

b = −0.371284 − 0.481806I

−1.77841 − 0.66560I −4.00156 − 1.15467I

u = 0.065460 − 0.176095I

a = 4.22561 + 2.33746I

b = −0.371284 + 0.481806I

−1.77841 + 0.66560I −4.00156 + 1.15467I

II. I

= h2a

− 2a

+ 7a

− 5a

+ 3b + a − 4, a

+ 4a

+ a

+ 4a

+ 1, u − 1i

(i) Arc colorings















−1





−

+ ··· −

a +









+ ··· +

a +

+ ··· +

a +





−

+ ··· −

a −

−

+ ··· −

a +





−

+ ··· −

a −

+ 3a

+ 2a

+ a + 1





+ ··· +

a +









+ ··· +

a +



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4a

− a

− 12a

− 8a

− 4a − 4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 3u

+ 5u

− 4u

+ 2u

− u + 1

, c

+ u

− u

− 2u

+ u + 1

, c

− u

+ 2u

− u + 1

, c

+ 3u

+ 5u

+ 4u

+ 2u

+ u + 1

, c

(u − 1)

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y

+ 5y

+ 6y

+ 3y + 1

, c

− 3y

+ 5y

− 4y

+ 2y

− y + 1

, c

(y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.00000

a = −0.341164 + 0.940004I

b = −1.073950 + 0.558752I

−1.64493 − 5.69302I −3.10838 + 7.09196I

u = 1.00000

a = −0.341164 − 0.940004I

b = −1.073950 − 0.558752I

−1.64493 + 5.69302I −3.10838 − 7.09196I

u = 1.00000

a = 0.084211 + 0.566250I

b = 1.002190 + 0.295542I

0.245672 + 0.924305I −1.11831 − 1.11590I

u = 1.00000

a = 0.084211 − 0.566250I

b = 1.002190 − 0.295542I

0.245672 − 0.924305I −1.11831 + 1.11590I

u = 1.00000

a = 0.25695 + 1.72779I

b = −0.428243 + 0.664531I

−3.53554 + 0.92430I −5.77331 + 0.83820I

u = 1.00000

a = 0.25695 − 1.72779I

b = −0.428243 − 0.664531I

−3.53554 − 0.92430I −5.77331 − 0.83820I

III. I

= hb, −u

+ a − u + 1, u

+ u

− 2u

− u

+ u − 1i

(i) Arc colorings















−u

+ u





+ u − 1





−u

+ 1

−u

+ 2u









+ u − 1





− 1

−u

+ u









−u

+ u

+ 1

−u

+ 2u





− u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

− 5u

+ 2u

+ 8u − 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

− u

+ 2u

− u

+ u − 1

, c

+ u

− 2u

− u

+ u − 1

+ u

+ 2u

+ u

+ u + 1

+ 3u

+ 4u

+ u

− u − 1

− u

− 2u

+ u

+ u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y − 1)

, c

+ 3y

+ 4y

+ y

− y − 1

, c

− 5y

+ 8y

− 3y

− y − 1

− y

+ 8y

− 3y

+ 3y − 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.21774

a = 1.70062

b = 0

−4.04602 −10.7190

u = 0.309916 + 0.549911I

a = −0.896438 + 0.890762I

b = 0

−1.97403 − 1.53058I −6.52924 + 5.40154I

u = 0.309916 − 0.549911I

a = −0.896438 − 0.890762I

b = 0

−1.97403 + 1.53058I −6.52924 − 5.40154I

u = −1.41878 + 0.21917I

a = −0.453870 − 0.402731I

b = 0

−7.51750 + 4.40083I −11.11126 − 1.16747I

u = −1.41878 − 0.21917I

a = −0.453870 + 0.402731I

b = 0

−7.51750 − 4.40083I −11.11126 + 1.16747I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

(u − 1)

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

· (u

100

+ 53u

+ ··· + 7u + 1)

((u − 1)

)(u

+ u

+ ··· + u + 1)(u

100

− 7u

+ ··· + 7u − 1)

− u

+ ··· − u + 1)(u

100

− 2u

+ ··· + 64u + 32)

((u + 1)

)(u

− u

+ ··· − u + 1)(u

100

− 7u

+ ··· + 7u − 1)

− u

+ ··· + u − 1)(u

100

− 2u

+ ··· + 256u − 64)

+ 3u

+ 5u

+ 4u

+ 2u

+ u + 1)

· (u

100

− 36u

+ ··· − 27136u + 1024)

+ u

+ ··· + u + 1)(u

100

− 2u

+ ··· + 64u + 32)

, c

((u − 1)

)(u

+ u

+ ··· + u − 1)(u

100

− 8u

+ ··· + 2u + 1)

+ u

+ ··· + u + 1)(u

100

− 2u

+ ··· + 256u − 64)

+ 3u

+ ··· − u − 1)(u

100

+ 42u

+ ··· + 49152u + 4096)

((u + 1)

)(u

− u

+ ··· + u + 1)(u

100

− 8u

+ ··· + 2u + 1)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y − 1)

)(y

+ y

+ ··· + 3y + 1)(y

100

− 5y

+ ··· − 47y + 1)

, c

(y − 1)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

100

− 53y

+ ··· − 7y + 1)

, c

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

100

− 36y

+ ··· − 27136y + 1024)

, c

+ 3y

+ ··· − y − 1)(y

100

+ 42y

+ ··· + 49152y + 4096)

+ y

+ 5y

+ 6y

+ 3y + 1)

· (y

100

+ 48y

+ ··· − 43646976y + 1048576)

, c

((y − 1)

)(y

− 5y

+ ··· − y − 1)(y

100

− 88y

+ ··· + 50y + 1)

− y

+ 8y

− 3y

+ 3y − 1)

· (y

100

+ 22y

+ ··· + 461373440y + 16777216)