12a

0782

(K12a

0782

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

1,4 5,9

10 3 2 8 7 12 6 11

, c

Ideals for irreducible components

of X

par

= h2.11865 × 10

428

− 1.08212 × 10

429

+ ··· + 2.38307 × 10

427

b + 9.28828 × 10

427

3.77418 × 10

428

− 2.18208 × 10

429

+ ··· + 2.38307 × 10

427

a + 4.03773 × 10

428

, u

− 6u

+ ··· − 30u + 1i

= h−26712u

− 136095u

+ ··· + 41267b + 19242,

− 97076u

− 295395u

+ ··· + 41267a + 23990, u

+ 3u

+ ··· − 3u

+ 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

= h2.12 × 10

428

− 1.08 × 10

429

+ · · · + 2.38 × 10

427

b + 9.29 ×

427

, 3.77 × 10

428

− 2.18 × 10

429

+ · · · + 2.38 × 10

427

a + 4.04 ×

428

, u

− 6u

+ · · · − 30u + 1i

(i) Arc colorings















−15.8375u

+ 91.5658u

+ ··· + 24.0389u − 16.9434

−8.89041u

+ 45.4085u

+ ··· + 72.2169u − 3.89761





−24.7279u

+ 136.974u

+ ··· + 96.2557u − 20.8410

−8.89041u

+ 45.4085u

+ ··· + 72.2169u − 3.89761





6.52903u

− 30.9088u

+ ··· − 1287.55u + 60.5572

4.24134u

− 26.0490u

+ ··· + 899.845u − 36.4157





45.2454u

− 254.396u

+ ··· + 3003.20u − 103.906

20.5669u

− 115.764u

+ ··· + 1600.35u − 58.5354





−25.8044u

+ 142.203u

+ ··· + 184.186u − 24.2999

−14.1864u

+ 74.6594u

+ ··· − 192.744u + 5.26665





17.4039u

− 102.619u

+ ··· + 3770.93u − 153.901

35.8133u

− 200.858u

+ ··· + 2303.55u − 81.5877





61.6817u

− 355.931u

+ ··· + 5974.92u − 220.895

8.86630u

− 48.4230u

+ ··· + 165.604u − 2.28769





9.50913u

− 73.9815u

+ ··· + 6807.32u − 286.013

5.28830u

− 29.8106u

+ ··· + 261.607u − 7.96118





−135.721u

+ 772.386u

+ ··· − 9767.50u + 335.007

−17.0754u

+ 96.2722u

+ ··· − 790.075u + 25.1554



(ii) Obstruction class = −1

(iii) Cusp Shapes = 59.3924u

− 339.420u

+ ··· + 6474.19u − 259.078

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 47u

+ ··· + 22027u + 1849

, c

+ u

+ ··· + 107u + 43

, c

+ u

+ ··· + 3057u + 677

− 6u

+ ··· − 30u + 1

, c

− u

+ ··· + 378u + 43

+ 4u

+ ··· + 2534u + 649

+ 3u

+ ··· − 54430u − 10639

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 13y

+ ··· − 54944849y −3418801

, c

− 47y

+ ··· + 22027y −1849

, c

+ 75y

+ ··· − 16234519y −458329

− 8y

+ ··· + 30y −1

, c

+ 119y

+ ··· − 54314y −1849

− 24y

+ ··· + 11018672y −421201

− 41y

+ ··· + 5892243774y −113188321

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.289117 + 0.959904I

a = 0.247983 − 0.890243I

b = −0.444716 + 0.246446I

−0.95680 + 2.64726I 0

u = −0.289117 − 0.959904I

a = 0.247983 + 0.890243I

b = −0.444716 − 0.246446I

−0.95680 − 2.64726I 0

u = 0.994310 + 0.055911I

a = 0.783766 − 0.213159I

b = −0.87312 + 1.52848I

−13.5623 − 6.1465I 0

u = 0.994310 − 0.055911I

a = 0.783766 + 0.213159I

b = −0.87312 − 1.52848I

−13.5623 + 6.1465I 0

u = −0.720342 + 0.734951I

a = 1.182430 + 0.140111I

b = −1.49757 − 0.03566I

−9.78510 + 9.45959I 0

u = −0.720342 − 0.734951I

a = 1.182430 − 0.140111I

b = −1.49757 + 0.03566I

−9.78510 − 9.45959I 0

u = −0.964676 + 0.376723I

a = 0.691405 + 0.116066I

b = −0.522740 − 1.139190I

−3.29940 + 0.97709I 0

u = −0.964676 − 0.376723I

a = 0.691405 − 0.116066I

b = −0.522740 + 1.139190I

−3.29940 − 0.97709I 0

u = −0.460088 + 0.936654I

a = −0.477266 + 1.215140I

b = 0.745588 − 0.483057I

−9.39170 + 3.08813I 0

u = −0.460088 − 0.936654I

a = −0.477266 − 1.215140I

b = 0.745588 + 0.483057I

−9.39170 − 3.08813I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.904927 + 0.274763I

a = 1.023640 + 0.473666I

b = −0.567159 + 1.166250I

−3.73367 − 3.88567I 0

u = 0.904927 − 0.274763I

a = 1.023640 − 0.473666I

b = −0.567159 − 1.166250I

−3.73367 + 3.88567I 0

u = −1.035510 + 0.231678I

a = 0.861175 + 1.081130I

b = 0.327085 + 0.335473I

−11.24410 − 5.06256I 0

u = −1.035510 − 0.231678I

a = 0.861175 − 1.081130I

b = 0.327085 − 0.335473I

−11.24410 + 5.06256I 0

u = −0.668864 + 0.829081I

a = −0.984513 − 0.209552I

b = 1.202030 + 0.080693I

−0.93766 + 7.51485I 0

u = −0.668864 − 0.829081I

a = −0.984513 + 0.209552I

b = 1.202030 − 0.080693I

−0.93766 − 7.51485I 0

u = 0.927854 + 0.110516I

a = −0.751235 − 0.065614I

b = 0.73470 − 1.39916I

−5.20284 − 5.28701I 0

u = 0.927854 − 0.110516I

a = −0.751235 + 0.065614I

b = 0.73470 + 1.39916I

−5.20284 + 5.28701I 0

u = −0.958848 + 0.490910I

a = −0.934638 + 0.178527I

b = 0.903421 + 0.646140I

−3.06403 + 1.76286I 0

u = −0.958848 − 0.490910I

a = −0.934638 − 0.178527I

b = 0.903421 − 0.646140I

−3.06403 − 1.76286I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.345722 + 0.851089I

a = −1.033130 − 0.722887I

b = 0.456443 + 0.763853I

0.13024 + 2.18300I 0

u = −0.345722 − 0.851089I

a = −1.033130 + 0.722887I

b = 0.456443 − 0.763853I

0.13024 − 2.18300I 0

u = −0.280938 + 1.045430I

a = 0.66353 + 1.42921I

b = −0.109739 − 0.905737I

−0.03198 + 3.42317I 0

u = −0.280938 − 1.045430I

a = 0.66353 − 1.42921I

b = −0.109739 + 0.905737I

−0.03198 − 3.42317I 0

u = 0.292505 + 0.842148I

a = −0.839759 + 0.369119I

b = 0.760407 + 0.174654I

2.37641 + 0.47115I 0

u = 0.292505 − 0.842148I

a = −0.839759 − 0.369119I

b = 0.760407 − 0.174654I

2.37641 − 0.47115I 0

u = −1.065600 + 0.308081I

a = −0.679248 − 0.343845I

b = 0.59924 + 1.40120I

−11.60630 + 0.90409I 0

u = −1.065600 − 0.308081I

a = −0.679248 + 0.343845I

b = 0.59924 − 1.40120I

−11.60630 − 0.90409I 0

u = −0.883069

a = 0.647690

b = −0.352931

−1.80352 0

u = 0.671202 + 0.561115I

a = −1.45085 + 0.08625I

b = 1.116020 + 0.035605I

−7.48014 − 4.78255I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.671202 − 0.561115I

a = −1.45085 − 0.08625I

b = 1.116020 − 0.035605I

−7.48014 + 4.78255I 0

u = −0.259215 + 1.102920I

a = −0.67085 − 1.72442I

b = 0.078689 + 1.097050I

−7.87333 + 3.80259I 0

u = −0.259215 − 1.102920I

a = −0.67085 + 1.72442I

b = 0.078689 − 1.097050I

−7.87333 − 3.80259I 0

u = −0.586307 + 0.973561I

a = 0.695896 + 0.316974I

b = −0.745228 − 0.093350I

1.69308 + 4.33267I 0

u = −0.586307 − 0.973561I

a = 0.695896 − 0.316974I

b = −0.745228 + 0.093350I

1.69308 − 4.33267I 0

u = −0.983002 + 0.573098I

a = 1.138440 − 0.219507I

b = −1.173070 − 0.648972I

−11.15500 + 2.05012I 0

u = −0.983002 − 0.573098I

a = 1.138440 + 0.219507I

b = −1.173070 + 0.648972I

−11.15500 − 2.05012I 0

u = 1.110710 + 0.290968I

a = −1.135840 − 0.546865I

b = 0.390635 − 0.902935I

−9.35548 − 3.78734I 0

u = 1.110710 − 0.290968I

a = −1.135840 + 0.546865I

b = 0.390635 + 0.902935I

−9.35548 + 3.78734I 0

u = −1.152000 + 0.039647I

a = −0.722058 − 0.475056I

b = −0.076023 − 0.384783I

−3.37674 − 2.78375I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.152000 − 0.039647I

a = −0.722058 + 0.475056I

b = −0.076023 + 0.384783I

−3.37674 + 2.78375I 0

u = 0.501415 + 0.649342I

a = 1.240930 − 0.257663I

b = −0.968639 − 0.104841I

0.59827 − 2.85627I 0

u = 0.501415 − 0.649342I

a = 1.240930 + 0.257663I

b = −0.968639 + 0.104841I

0.59827 + 2.85627I 0

u = 0.971469 + 0.866417I

a = 1.43450 − 0.30255I

b = −0.28159 + 1.42485I

−18.0405 − 6.3079I 0

u = 0.971469 − 0.866417I

a = 1.43450 + 0.30255I

b = −0.28159 − 1.42485I

−18.0405 + 6.3079I 0

u = 1.076390 + 0.734224I

a = −1.213520 + 0.008244I

b = 0.246608 − 1.273080I

−8.70092 − 4.69865I 0

u = 1.076390 − 0.734224I

a = −1.213520 − 0.008244I

b = 0.246608 + 1.273080I

−8.70092 + 4.69865I 0

u = 0.005021 + 0.677987I

a = 2.14658 + 1.03569I

b = −0.504060 − 0.709244I

−6.31275 + 2.09871I 0.46926 − 2.25158I

u = 0.005021 − 0.677987I

a = 2.14658 − 1.03569I

b = −0.504060 + 0.709244I

−6.31275 − 2.09871I 0.46926 + 2.25158I

u = 0.426863 + 0.431697I

a = −2.28395 − 2.76519I

b = 0.469197 − 1.010660I

−10.94880 − 7.65283I −5.22797 + 11.06490I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.426863 − 0.431697I

a = −2.28395 + 2.76519I

b = 0.469197 + 1.010660I

−10.94880 + 7.65283I −5.22797 − 11.06490I

u = −0.57480 + 1.29543I

a = 0.450516 + 0.332022I

b = −0.416072 − 1.184950I

−4.33687 + 0.29946I 0

u = −0.57480 − 1.29543I

a = 0.450516 − 0.332022I

b = −0.416072 + 1.184950I

−4.33687 − 0.29946I 0

u = 0.481464 + 0.319780I

a = 0.89697 + 2.60290I

b = −0.359298 + 1.076130I

−3.23096 − 6.09113I −3.77113 + 12.10008I

u = 0.481464 − 0.319780I

a = 0.89697 − 2.60290I

b = −0.359298 − 1.076130I

−3.23096 + 6.09113I −3.77113 − 12.10008I

u = −0.16641 + 1.41807I

a = 0.098862 − 0.226912I

b = −0.161596 − 0.347833I

−1.34120 + 2.57391I 0

u = −0.16641 − 1.41807I

a = 0.098862 + 0.226912I

b = −0.161596 + 0.347833I

−1.34120 − 2.57391I 0

u = 0.63328 + 1.29448I

a = 0.237064 − 0.603765I

b = 0.07138 + 1.63295I

−16.8400 − 0.1881I 0

u = 0.63328 − 1.29448I

a = 0.237064 + 0.603765I

b = 0.07138 − 1.63295I

−16.8400 + 0.1881I 0

u = 0.470623 + 0.153489I

a = 0.84615 − 1.99787I

b = 0.161106 − 1.169670I

−2.10008 − 3.17693I −1.78235 + 1.84660I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.470623 − 0.153489I

a = 0.84615 + 1.99787I

b = 0.161106 + 1.169670I

−2.10008 + 3.17693I −1.78235 − 1.84660I

u = −1.22924 + 0.89403I

a = 0.498695 + 0.194874I

b = −0.162574 − 1.065220I

−3.52126 + 0.24217I 0

u = −1.22924 − 0.89403I

a = 0.498695 − 0.194874I

b = −0.162574 + 1.065220I

−3.52126 − 0.24217I 0

u = −1.08638 + 1.07371I

a = −0.743525 − 0.138471I

b = 0.413995 + 1.178270I

−0.71653 + 3.86741I 0

u = −1.08638 − 1.07371I

a = −0.743525 + 0.138471I

b = 0.413995 − 1.178270I

−0.71653 − 3.86741I 0

u = −1.10562 + 1.07856I

a = 0.925228 + 0.207336I

b = −0.482928 − 1.283410I

−3.13830 + 8.02376I 0

u = −1.10562 − 1.07856I

a = 0.925228 − 0.207336I

b = −0.482928 + 1.283410I

−3.13830 − 8.02376I 0

u = −1.10479 + 1.09357I

a = −1.048780 − 0.298417I

b = 0.53126 + 1.37393I

−11.7724 + 10.6064I 0

u = −1.10479 − 1.09357I

a = −1.048780 + 0.298417I

b = 0.53126 − 1.37393I

−11.7724 − 10.6064I 0

u = 0.427563 + 0.067044I

a = −1.72094 − 0.04130I

b = 0.19085 − 1.52986I

−6.20830 + 1.24493I −11.68136 − 0.65851I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.427563 − 0.067044I

a = −1.72094 + 0.04130I

b = 0.19085 + 1.52986I

−6.20830 − 1.24493I −11.68136 + 0.65851I

u = 0.355675 + 0.207652I

a = 1.56513 − 1.07893I

b = −0.32861 + 2.05152I

−16.2010 + 0.7832I −17.0479 + 0.5823I

u = 0.355675 − 0.207652I

a = 1.56513 + 1.07893I

b = −0.32861 − 2.05152I

−16.2010 − 0.7832I −17.0479 − 0.5823I

u = 1.21695 + 1.09079I

a = 0.995083 − 0.184335I

b = −0.62985 + 1.48106I

−14.6050 − 16.6598I 0

u = 1.21695 − 1.09079I

a = 0.995083 + 0.184335I

b = −0.62985 − 1.48106I

−14.6050 + 16.6598I 0

u = 1.46702 + 0.73223I

a = 0.683592 + 0.065915I

b = −0.040154 + 1.129080I

−4.43466 − 1.20428I 0

u = 1.46702 − 0.73223I

a = 0.683592 − 0.065915I

b = −0.040154 − 1.129080I

−4.43466 + 1.20428I 0

u = −0.136891 + 0.322702I

a = −2.60789 + 0.71307I

b = 0.269010 + 0.682992I

0.385020 + 1.267230I 3.97029 − 5.44435I

u = −0.136891 − 0.322702I

a = −2.60789 − 0.71307I

b = 0.269010 − 0.682992I

0.385020 − 1.267230I 3.97029 + 5.44435I

u = −1.25254 + 1.07390I

a = −0.362692 − 0.428942I

b = −0.028944 + 1.230660I

−11.96400 − 2.23884I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.25254 − 1.07390I

a = −0.362692 + 0.428942I

b = −0.028944 − 1.230660I

−11.96400 + 2.23884I 0

u = 1.25127 + 1.12817I

a = −0.849440 + 0.130050I

b = 0.52648 − 1.42248I

−5.7110 − 13.5269I 0

u = 1.25127 − 1.12817I

a = −0.849440 − 0.130050I

b = 0.52648 + 1.42248I

−5.7110 + 13.5269I 0

u = 0.221687 + 0.111443I

a = −6.26482 + 0.66732I

b = 0.199795 + 0.664032I

−6.58989 − 2.82612I −5.29343 + 0.17006I

u = 0.221687 − 0.111443I

a = −6.26482 − 0.66732I

b = 0.199795 − 0.664032I

−6.58989 + 2.82612I −5.29343 − 0.17006I

u = 1.30422 + 1.23689I

a = 0.641285 − 0.114442I

b = −0.37853 + 1.37706I

−3.00402 − 8.54591I 0

u = 1.30422 − 1.23689I

a = 0.641285 + 0.114442I

b = −0.37853 − 1.37706I

−3.00402 + 8.54591I 0

u = 0.0974839 + 0.1009380I

a = 6.53790 + 0.14587I

b = −0.280215 − 0.524506I

0.188702 − 1.373040I 1.57614 + 4.30040I

u = 0.0974839 − 0.1009380I

a = 6.53790 − 0.14587I

b = −0.280215 + 0.524506I

0.188702 + 1.373040I 1.57614 − 4.30040I

u = 1.32927 + 1.32418I

a = 0.297328 − 0.413174I

b = 0.251344 + 1.216280I

−14.1998 + 7.5723I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.32927 − 1.32418I

a = 0.297328 + 0.413174I

b = 0.251344 − 1.216280I

−14.1998 − 7.5723I 0

u = 1.15816 + 1.50493I

a = −0.404891 + 0.251702I

b = 0.17621 − 1.41765I

−6.30515 − 3.27171I 0

u = 1.15816 − 1.50493I

a = −0.404891 − 0.251702I

b = 0.17621 + 1.41765I

−6.30515 + 3.27171I 0

u = 1.57110 + 1.12346I

a = −0.428088 + 0.171106I

b = −0.112599 − 1.159780I

−5.81046 + 3.88421I 0

u = 1.57110 − 1.12346I

a = −0.428088 − 0.171106I

b = −0.112599 + 1.159780I

−5.81046 − 3.88421I 0

II.

= h−2.67 × 10

− 1.36 × 10

+ · · · + 4.13 × 10

b + 1.92 × 10

, −9.71 ×

−2.95×10

+· · ·+4.13×10

a+2.40×10

, u

+3u

+· · ·−3u

+1i

(i) Arc colorings















2.35239u

+ 7.15814u

+ ··· − 0.282647u − 0.581336

0.647297u

+ 3.29791u

+ ··· − 0.981438u − 0.466281





2.99968u

+ 10.4561u

+ ··· − 1.26409u − 1.04762

0.647297u

+ 3.29791u

+ ··· − 0.981438u − 0.466281





0.498340u

+ 2.01844u

+ ··· − 1.77614u + 0.556789

0.498340u

+ 1.01844u

+ ··· + 1.22386u − 0.443211





−1.05845u

− 3.15359u

+ ··· − 0.767175u − 1.21935

0.0217607u

− 0.964378u

+ ··· + 2.78065u + 0.0584486





2.71638u

+ 8.43551u

+ ··· + 1.08830u − 0.946640

0.951414u

+ 4.72225u

+ ··· − 1.34543u − 0.651659





−0.946640u

− 5.55630u

+ ··· + 4.42426u − 1.08830

0.704364u

+ 1.75881u

+ ··· + 0.935517u + 0.698137





−2.00928u

− 5.79470u

+ ··· − 3.01112u − 3.01825

+ 3u

+ ··· − 3u

+ u





−0.240265u

+ 2.98309u

+ ··· − 8.26183u + 2.76000

−1.05513u

− 3.19047u

+ ··· − 0.214893u − 1.33293





4.42492u

+ 12.7758u

+ ··· + 5.13325u + 3.68919

−1.43638u

− 3.87469u

+ ··· − 2.43420u + 0.732135



(ii) Obstruction class = 1

(iii) Cusp Shapes =

2093

1423

15200

1423

+ ··· −

14211

1423

u −

3810

1423

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 10u

+ ··· − 13u + 1

− 5u

+ ··· + u + 1

+ 10u

+ ··· + u + 1

+ 3u

+ ··· − 3u

+ 1

, c

+ 14u

+ ··· + 2u + 1

− 5u

+ ··· − u + 1

− u

+ ··· − 2u + 1

+ 10u

+ ··· − u + 1

, c

+ 14u

+ ··· − 2u + 1

− 4u

+ ··· − 4u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 10y

+ ··· + 7y + 1

, c

− 10y

+ ··· − 13y + 1

, c

+ 20y

+ ··· + 17y + 1

+ y

+ ··· − 6y

+ 1

, c

+ 28y

+ ··· + 24y + 1

− 3y

+ ··· + 2y + 1

− 12y

+ ··· − 12y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.354216 + 0.910702I

a = −0.83992 − 1.29403I

b = 0.112283 + 0.669508I

0.55730 + 3.17204I 5.96809 − 4.30599I

u = −0.354216 − 0.910702I

a = −0.83992 + 1.29403I

b = 0.112283 − 0.669508I

0.55730 − 3.17204I 5.96809 + 4.30599I

u = 0.940886 + 0.013452I

a = 0.401603 + 0.846607I

b = −0.485223 + 1.103280I

−3.89387 − 5.07290I −6.24968 + 7.07745I

u = 0.940886 − 0.013452I

a = 0.401603 − 0.846607I

b = −0.485223 − 1.103280I

−3.89387 + 5.07290I −6.24968 − 7.07745I

u = −1.086910 + 0.143350I

a = 0.988461 − 0.625648I

b = −0.481788 − 0.523177I

−8.60982 + 3.31110I −3.02160 − 0.26217I

u = −1.086910 − 0.143350I

a = 0.988461 + 0.625648I

b = −0.481788 + 0.523177I

−8.60982 − 3.31110I −3.02160 + 0.26217I

u = 0.831705 + 0.757532I

a = −0.545903 + 0.048817I

b = 0.26159 − 1.41773I

−5.34600 − 2.40154I −6.23549 + 2.82365I

u = 0.831705 − 0.757532I

a = −0.545903 − 0.048817I

b = 0.26159 + 1.41773I

−5.34600 + 2.40154I −6.23549 − 2.82365I

u = −1.124410 + 0.373073I

a = −0.734596 + 0.227076I

b = 0.546149 + 0.748639I

−2.02296 + 1.85750I 0.15205 − 3.47247I

u = −1.124410 − 0.373073I

a = −0.734596 − 0.227076I

b = 0.546149 − 0.748639I

−2.02296 − 1.85750I 0.15205 + 3.47247I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.335386 + 0.673441I

a = 1.89916 + 2.10509I

b = −0.117754 − 0.611933I

−6.16437 + 3.50843I 1.04098 − 7.63550I

u = −0.335386 − 0.673441I

a = 1.89916 − 2.10509I

b = −0.117754 + 0.611933I

−6.16437 − 3.50843I 1.04098 + 7.63550I

u = 0.075229 + 0.691605I

a = 0.314256 − 1.001560I

b = 0.17170 + 1.96088I

−15.7703 − 1.0203I −1.42896 + 8.09833I

u = 0.075229 − 0.691605I

a = 0.314256 + 1.001560I

b = 0.17170 − 1.96088I

−15.7703 + 1.0203I −1.42896 − 8.09833I

u = −0.840408 + 1.000340I

a = 0.391400 + 0.249495I

b = −0.484708 − 1.165360I

−4.50713 − 0.43448I −8.00022 + 4.48441I

u = −0.840408 − 1.000340I

a = 0.391400 − 0.249495I

b = −0.484708 + 1.165360I

−4.50713 + 0.43448I −8.00022 − 4.48441I

u = 0.657334 + 0.200921I

a = 0.02446 + 1.99194I

b = 0.583165 + 0.888157I

−11.41920 + 6.77394I −8.69980 − 4.47672I

u = 0.657334 − 0.200921I

a = 0.02446 − 1.99194I

b = 0.583165 − 0.888157I

−11.41920 − 6.77394I −8.69980 + 4.47672I

u = −0.26383 + 1.56148I

a = 0.101075 + 0.499810I

b = −0.105421 − 0.774841I

−2.04126 + 2.70464I −9.52536 − 4.18246I

u = −0.26383 − 1.56148I

a = 0.101075 − 0.499810I

b = −0.105421 + 0.774841I

−2.04126 − 2.70464I −9.52536 + 4.18246I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 10u

+ ··· − 13u + 1)(u

+ 47u

+ ··· + 22027u + 1849)

− 5u

+ ··· + u + 1)(u

+ u

+ ··· + 107u + 43)

+ 10u

+ ··· + u + 1)(u

+ u

+ ··· + 3057u + 677)

+ 3u

+ ··· − 3u

+ 1)(u

− 6u

+ ··· − 30u + 1)

, c

+ 14u

+ ··· + 2u + 1)(u

− u

+ ··· + 378u + 43)

− 5u

+ ··· − u + 1)(u

+ u

+ ··· + 107u + 43)

− u

+ ··· − 2u + 1)(u

+ 4u

+ ··· + 2534u + 649)

+ 10u

+ ··· − u + 1)(u

+ u

+ ··· + 3057u + 677)

, c

+ 14u

+ ··· − 2u + 1)(u

− u

+ ··· + 378u + 43)

− 4u

+ ··· − 4u + 1)(u

+ 3u

+ ··· − 54430u − 10639)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

+ 10y

+ ··· + 7y + 1)

· (y

+ 13y

+ ··· − 54944849y −3418801)

, c

− 10y

+ ··· − 13y + 1)(y

− 47y

+ ··· + 22027y −1849)

, c

+ 20y

+ ··· + 17y + 1)

· (y

+ 75y

+ ··· − 16234519y −458329)

+ y

+ ··· − 6y

+ 1)(y

− 8y

+ ··· + 30y −1)

, c

+ 28y

+ ··· + 24y + 1)(y

+ 119y

+ ··· − 54314y −1849)

− 3y

+ ··· + 2y + 1)(y

− 24y

+ ··· + 1.10187 × 10

y −421201)

− 12y

+ ··· − 12y + 1)

· (y

− 41y

+ ··· + 5892243774y −113188321)