12n

0027

(K12n

0027

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

5,8 9,12

10 4 7 1 11 6 3 2

, c

Ideals for irreducible components

of X

par

= h4.63893 × 10

317

+ 6.90082 × 10

317

+ ··· + 1.25294 × 10

321

b + 1.60645 × 10

321

− 1.19015 × 10

318

− 3.51549 × 10

318

+ ··· + 2.50588 × 10

321

a − 2.87281 × 10

322

+ 2u

+ ··· + 20480u + 4096i

= h2u

+ 2u

+ b + 5u + 1, −u

− 3u

+ a − 3u − 6, u

+ u

+ 3u

+ 2u + 1i

= ha, 309980v

+ 790238v

+ ··· + 707733b + 1249018,

+ 3v

+ 18v

+ 31v

− 29v

− 31v

− 9v

+ 19v

+ 5v

− 4v

+ v + 1i

* 3 irreducible components of dim

= 0, with total 93 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

= h4.64 × 10

317

+ 6.90 × 10

317

+ · · · + 1.25 × 10

321

b + 1.61 ×

321

, −1.19 × 10

318

− 3.52 × 10

318

+ · · · + 2.51 × 10

321

a − 2.87 ×

322

, u

+ 2u

+ · · · + 20480u + 4096i

(i) Arc colorings















0.000474943u

+ 0.00140290u

+ ··· + 19.8888u + 11.4642

−0.000370243u

− 0.000550769u

+ ··· − 12.5316u − 1.28214





0.000502182u

+ 0.00148228u

+ ··· + 18.5669u + 11.5558

−0.000400721u

− 0.000628200u

+ ··· − 14.2062u − 2.01128





+ u





0.00403445u

+ 0.00701135u

+ ··· + 135.801u + 30.0505

0.000251477u

+ 0.000675536u

+ ··· + 18.8283u + 6.76857





0.000316716u

+ 0.000548963u

+ ··· + 6.03001u + 1.86087

−8.61974 × 10

−6

− 0.0000450420u

+ ··· − 2.08710u − 0.369176





0.000443453u

+ 0.00138924u

+ ··· + 18.5802u + 12.0376

−0.000400972u

− 0.000579591u

+ ··· − 13.4129u − 1.48420





0.000325336u

+ 0.000594005u

+ ··· + 8.11710u + 2.23004

0.0000255950u

+ 0.0000821978u

+ ··· + 1.91504u + 0.601280





−0.0000229625u

− 0.000118674u

+ ··· − 2.05186u − 1.28107

0.0000158254u

+ 0.0000361796u

+ ··· + 2.94000u + 0.422511





−0.0000229625u

− 0.000118674u

+ ··· − 2.05186u − 1.28107

0.0000353440u

+ 0.0000721239u

+ ··· + 4.52395u + 0.720490



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.000265127u

+ 0.00273732u

+ ··· + 71.8347u + 33.0070

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 42u

+ ··· − 173u − 1

, c

+ 8u

+ ··· + 3u + 1

− 8u

+ ··· + 2520u + 1732

, c

+ 2u

+ ··· + 20480u + 4096

− u

+ ··· + 7631854u − 2351327

− 7u

+ ··· − 18228u − 7979

, c

− 7u

+ ··· − 65u + 1

+ 13u

+ ··· − 200u − 16

+ 4u

+ ··· − 3u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 6y

+ ··· + 13671y −1

, c

+ 42y

+ ··· − 173y −1

− 54y

+ ··· − 552548680y −2999824

, c

− 60y

+ ··· + 234881024y −16777216

− 9y

+ ··· − 135685107448604y −5528738660929

− 77y

+ ··· + 2964755496y −63664441

, c

− 63y

+ ··· − 2399y −1

+ 21y

+ ··· + 15168y −256

+ 2y

+ ··· − 29y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.021202 + 0.991505I

a = 0.85015 + 1.14174I

b = −0.435122 − 0.281974I

−1.29984 − 4.81871I −3.73970 + 8.31831I

u = −0.021202 − 0.991505I

a = 0.85015 − 1.14174I

b = −0.435122 + 0.281974I

−1.29984 + 4.81871I −3.73970 − 8.31831I

u = 0.350174 + 0.870277I

a = 0.183615 + 1.203250I

b = 0.621978 − 0.404845I

−4.26262 − 2.29968I −11.37943 + 4.09375I

u = 0.350174 − 0.870277I

a = 0.183615 − 1.203250I

b = 0.621978 + 0.404845I

−4.26262 + 2.29968I −11.37943 − 4.09375I

u = 0.552031 + 0.673417I

a = 0.538939 − 0.192540I

b = 1.155460 − 0.244632I

−3.26120 + 0.96418I −9.85344 − 3.05224I

u = 0.552031 − 0.673417I

a = 0.538939 + 0.192540I

b = 1.155460 + 0.244632I

−3.26120 − 0.96418I −9.85344 + 3.05224I

u = 0.801656 + 0.115028I

a = 0.100644 − 1.215600I

b = 0.407413 − 0.043467I

0.77686 − 3.97780I −2.71090 + 8.29234I

u = 0.801656 − 0.115028I

a = 0.100644 + 1.215600I

b = 0.407413 + 0.043467I

0.77686 + 3.97780I −2.71090 − 8.29234I

u = −0.742333 + 0.323629I

a = 0.674206 − 0.258407I

b = −0.517206 − 1.155410I

0.963117 − 0.556760I −4.97972 − 0.27994I

u = −0.742333 − 0.323629I

a = 0.674206 + 0.258407I

b = −0.517206 + 1.155410I

0.963117 + 0.556760I −4.97972 + 0.27994I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.000355 + 0.774042I

a = 2.07113 − 0.25770I

b = −0.849623 + 0.308056I

−1.18097 + 1.51108I −2.56147 − 1.04285I

u = −0.000355 − 0.774042I

a = 2.07113 + 0.25770I

b = −0.849623 − 0.308056I

−1.18097 − 1.51108I −2.56147 + 1.04285I

u = −1.241430 + 0.227325I

a = 0.236549 − 0.474818I

b = 0.342053 − 1.260670I

−2.68140 + 1.19053I 0

u = −1.241430 − 0.227325I

a = 0.236549 + 0.474818I

b = 0.342053 + 1.260670I

−2.68140 − 1.19053I 0

u = 0.116220 + 0.707665I

a = 1.044990 − 0.550262I

b = −0.426152 − 0.182747I

1.17719 + 1.40870I 3.29231 − 3.00363I

u = 0.116220 − 0.707665I

a = 1.044990 + 0.550262I

b = −0.426152 + 0.182747I

1.17719 − 1.40870I 3.29231 + 3.00363I

u = −0.715312 + 0.028489I

a = 0.85434 + 1.29507I

b = 0.556271 + 0.176958I

0.648909 − 0.975553I −3.60474 − 0.46426I

u = −0.715312 − 0.028489I

a = 0.85434 − 1.29507I

b = 0.556271 − 0.176958I

0.648909 + 0.975553I −3.60474 + 0.46426I

u = −0.378806 + 0.592823I

a = −0.74970 + 4.36413I

b = 3.08806 − 0.53632I

−1.97793 + 1.35936I −28.8056 − 39.0048I

u = −0.378806 − 0.592823I

a = −0.74970 − 4.36413I

b = 3.08806 + 0.53632I

−1.97793 − 1.35936I −28.8056 + 39.0048I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.556381 + 0.425890I

a = 0.709325 − 0.442191I

b = −0.056823 − 0.605176I

1.65009 + 1.91270I −1.87415 + 0.42405I

u = 0.556381 − 0.425890I

a = 0.709325 + 0.442191I

b = −0.056823 + 0.605176I

1.65009 − 1.91270I −1.87415 − 0.42405I

u = −1.33114

a = −3.12813

b = −4.38293

−4.62840 0

u = 0.615724 + 0.225295I

a = 0.442606 + 0.279319I

b = −1.027400 + 0.849451I

−0.50082 + 7.43088I −9.83588 − 3.06441I

u = 0.615724 − 0.225295I

a = 0.442606 − 0.279319I

b = −1.027400 − 0.849451I

−0.50082 − 7.43088I −9.83588 + 3.06441I

u = −0.377234 + 0.508733I

a = 0.910926 + 0.090831I

b = −0.080814 − 0.346857I

−0.22325 + 1.43278I −1.54695 − 5.02383I

u = −0.377234 − 0.508733I

a = 0.910926 − 0.090831I

b = −0.080814 + 0.346857I

−0.22325 − 1.43278I −1.54695 + 5.02383I

u = −0.481913 + 0.382313I

a = 0.472417 + 0.298979I

b = −0.844793 + 0.392938I

−0.04977 + 4.23277I −3.74018 − 11.43224I

u = −0.481913 − 0.382313I

a = 0.472417 − 0.298979I

b = −0.844793 − 0.392938I

−0.04977 − 4.23277I −3.74018 + 11.43224I

u = 1.38453 + 0.33788I

a = −0.331549 − 0.202544I

b = −0.197769 + 0.616102I

−2.94680 − 5.49032I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.38453 − 0.33788I

a = −0.331549 + 0.202544I

b = −0.197769 − 0.616102I

−2.94680 + 5.49032I 0

u = −0.13459 + 1.43811I

a = 0.510736 + 0.169564I

b = −2.29528 − 0.29972I

−3.00179 + 4.56266I 0

u = −0.13459 − 1.43811I

a = 0.510736 − 0.169564I

b = −2.29528 + 0.29972I

−3.00179 − 4.56266I 0

u = 1.45101 + 0.03574I

a = 0.081914 − 0.620709I

b = 0.71394 − 1.81215I

−6.59261 − 2.90185I 0

u = 1.45101 − 0.03574I

a = 0.081914 + 0.620709I

b = 0.71394 + 1.81215I

−6.59261 + 2.90185I 0

u = 1.46452 + 0.10406I

a = −1.48734 + 0.15258I

b = −1.59100 + 0.52581I

−7.24514 − 2.22253I 0

u = 1.46452 − 0.10406I

a = −1.48734 − 0.15258I

b = −1.59100 − 0.52581I

−7.24514 + 2.22253I 0

u = 1.47132 + 0.00598I

a = 1.74208 − 0.11100I

b = 2.41570 + 0.08447I

−3.93524 + 7.62228I 0

u = 1.47132 − 0.00598I

a = 1.74208 + 0.11100I

b = 2.41570 − 0.08447I

−3.93524 − 7.62228I 0

u = 1.41409 + 0.41604I

a = 0.106381 + 0.389440I

b = −0.08739 + 1.42927I

−5.83012 − 5.98154I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.41409 − 0.41604I

a = 0.106381 − 0.389440I

b = −0.08739 − 1.42927I

−5.83012 + 5.98154I 0

u = −0.13878 + 1.48672I

a = 0.755838 + 0.008269I

b = −2.60237 − 0.35998I

5.24362 + 3.10833I 0

u = −0.13878 − 1.48672I

a = 0.755838 − 0.008269I

b = −2.60237 + 0.35998I

5.24362 − 3.10833I 0

u = 0.424249 + 0.248865I

a = −1.60490 + 7.51402I

b = −0.626376 + 0.383358I

−2.15277 + 2.70026I −9.88811 + 8.45872I

u = 0.424249 − 0.248865I

a = −1.60490 − 7.51402I

b = −0.626376 − 0.383358I

−2.15277 − 2.70026I −9.88811 − 8.45872I

u = −0.345743 + 0.345351I

a = 5.23140 − 9.13487I

b = −1.17665 − 1.19040I

−1.72233 + 1.49478I −0.6746 − 41.0959I

u = −0.345743 − 0.345351I

a = 5.23140 + 9.13487I

b = −1.17665 + 1.19040I

−1.72233 − 1.49478I −0.6746 + 41.0959I

u = −1.50984 + 0.22948I

a = 1.55997 + 0.33556I

b = 2.38243 − 0.51571I

−3.74678 − 1.39146I 0

u = −1.50984 − 0.22948I

a = 1.55997 − 0.33556I

b = 2.38243 + 0.51571I

−3.74678 + 1.39146I 0

u = 1.52087 + 0.23706I

a = −2.41757 + 0.56218I

b = −4.64875 − 0.40405I

−8.26886 − 4.60408I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.52087 − 0.23706I

a = −2.41757 − 0.56218I

b = −4.64875 + 0.40405I

−8.26886 + 4.60408I 0

u = −1.56389 + 0.08723I

a = −0.166301 + 0.131482I

b = 0.044542 − 0.990744I

−7.30971 + 1.30866I 0

u = −1.56389 − 0.08723I

a = −0.166301 − 0.131482I

b = 0.044542 + 0.990744I

−7.30971 − 1.30866I 0

u = −1.50572 + 0.51745I

a = −0.379639 + 0.074193I

b = −0.510768 − 0.673818I

−6.14031 + 10.62530I 0

u = −1.50572 − 0.51745I

a = −0.379639 − 0.074193I

b = −0.510768 + 0.673818I

−6.14031 − 10.62530I 0

u = −0.16466 + 1.59990I

a = 0.464159 − 0.164254I

b = −2.70309 − 0.17160I

−6.96276 − 9.17383I 0

u = −0.16466 − 1.59990I

a = 0.464159 + 0.164254I

b = −2.70309 + 0.17160I

−6.96276 + 9.17383I 0

u = −1.64354 + 0.14674I

a = −1.243040 − 0.088377I

b = −1.59369 + 0.94791I

−11.25600 + 2.45702I 0

u = −1.64354 − 0.14674I

a = −1.243040 + 0.088377I

b = −1.59369 − 0.94791I

−11.25600 − 2.45702I 0

u = −1.61779 + 0.33663I

a = −1.260540 − 0.374517I

b = −1.91931 − 0.36768I

−10.89770 + 7.17611I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.61779 − 0.33663I

a = −1.260540 + 0.374517I

b = −1.91931 + 0.36768I

−10.89770 − 7.17611I 0

u = −0.230559 + 0.235592I

a = 2.01640 − 0.20890I

b = 0.988240 − 0.430122I

−1.89908 + 0.79590I −4.83770 + 0.82015I

u = −0.230559 − 0.235592I

a = 2.01640 + 0.20890I

b = 0.988240 + 0.430122I

−1.89908 − 0.79590I −4.83770 − 0.82015I

u = 1.55975 + 0.62424I

a = 1.44242 − 0.64185I

b = 2.71325 + 0.97362I

−8.2935 − 11.7637I 0

u = 1.55975 − 0.62424I

a = 1.44242 + 0.64185I

b = 2.71325 − 0.97362I

−8.2935 + 11.7637I 0

u = 0.33491 + 1.65140I

a = 0.521990 − 0.114366I

b = −2.61863 + 0.78521I

−6.64004 + 0.42401I 0

u = 0.33491 − 1.65140I

a = 0.521990 + 0.114366I

b = −2.61863 − 0.78521I

−6.64004 − 0.42401I 0

u = −1.55571 + 0.78921I

a = 1.30436 + 0.75861I

b = 2.70847 − 1.25612I

−11.3053 + 17.4741I 0

u = −1.55571 − 0.78921I

a = 1.30436 − 0.75861I

b = 2.70847 + 1.25612I

−11.3053 − 17.4741I 0

u = −1.62516 + 0.70906I

a = 1.218970 + 0.523530I

b = 2.46724 − 1.50899I

−7.62809 + 3.43602I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.62516 − 0.70906I

a = 1.218970 − 0.523530I

b = 2.46724 + 1.50899I

−7.62809 − 3.43602I 0

u = 1.60150 + 0.85618I

a = 1.146330 − 0.596908I

b = 2.37731 + 1.76533I

−10.63730 − 9.31613I 0

u = 1.60150 − 0.85618I

a = 1.146330 + 0.596908I

b = 2.37731 − 1.76533I

−10.63730 + 9.31613I 0

u = −1.79507 + 0.49521I

a = 1.331820 + 0.400074I

b = 3.11758 − 0.72547I

−13.6570 + 7.5061I 0

u = −1.79507 − 0.49521I

a = 1.331820 − 0.400074I

b = 3.11758 + 0.72547I

−13.6570 − 7.5061I 0

u = 1.83627 + 0.59317I

a = 1.180040 − 0.374782I

b = 2.90054 + 1.35306I

−13.24420 + 0.87431I 0

u = 1.83627 − 0.59317I

a = 1.180040 + 0.374782I

b = 2.90054 − 1.35306I

−13.24420 − 0.87431I 0

II.

= h2u

+ 2u

+ b + 5u + 1 , −u

− 3u

+ a − 3u − 6, u

+ u

+ 3u

+ 2u + 1i

(i) Arc colorings















+ 3u

+ 3u + 6

−2u

− 2u

− 5u − 1





+ 3u

+ 3u + 7

−2u

− u

− 5u − 1





+ u





11u

+ 4u

+ 27u + 5

+ 4u

+ 8u + 8





−u

− 1

−u





+ 3u

+ 3u + 7

−2u

− u

− 5u − 1









+ 2u

+ u





+ 2u

+ u

+ 2u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −23u

− 11u

− 70u − 48

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 3u

− 2u + 1

− u

+ u

+ 1

+ u

+ 5u

− u + 2

+ u

+ 1

, c

− 2u

+ 7u

− 5u + 1

+ u

+ 3u

+ 2u + 1

(u − 1)

(u + 1)

+ 5u

+ 7u

+ 2u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 5y

+ 7y

+ 2y + 1

, c

+ y

+ 3y

+ 2y + 1

+ 9y

+ 31y

+ 19y + 4

, c

+ 10y

+ 31y

− 11y + 1

, c

(y −1)

− 11y

+ 31y

+ 10y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.395123 + 0.506844I

a = 4.75515 + 0.42612I

b = 0.69151 − 1.94753I

−1.85594 + 1.41510I −24.8178 − 33.5385I

u = −0.395123 − 0.506844I

a = 4.75515 − 0.42612I

b = 0.69151 + 1.94753I

−1.85594 − 1.41510I −24.8178 + 33.5385I

u = −0.10488 + 1.55249I

a = −0.755148 − 0.010081I

b = 2.80849 + 0.27009I

5.14581 + 3.16396I −31.6822 − 20.2078I

u = −0.10488 − 1.55249I

a = −0.755148 + 0.010081I

b = 2.80849 − 0.27009I

5.14581 − 3.16396I −31.6822 + 20.2078I

III. I

= ha, 3.10 × 10

+ 7.90 × 10

+ · · · + 7.08 × 10

b + 1.25 ×

, v

+ 3v

+ · · · + v + 1i

(i) Arc colorings















−0.437990v

− 1.11658v

+ ··· + 0.432058v − 1.76482





1.00827v

+ 2.68986v

+ ··· − 1.09637v + 2.28028









−1.00827v

− 2.68986v

+ ··· + 1.09637v − 1.28028

−1.62222v

− 4.40786v

+ ··· + 1.83221v − 1.73501





1.24751v

+ 3.51726v

+ ··· − 1.51765v + 2.58875

1.86146v

+ 5.23525v

+ ··· − 2.25349v + 3.04348





−0.437990v

− 1.11658v

+ ··· + 0.432058v − 1.76482

−0.437990v

− 1.11658v

+ ··· + 0.432058v − 1.76482





−1.24751v

− 3.51726v

+ ··· + 1.51765v − 2.58875

−1.86146v

− 5.23525v

+ ··· + 2.25349v − 3.04348





1.05885v

+ 2.76249v

+ ··· + 0.419689v + 2.48147

0.861460v

+ 2.23525v

+ ··· + 1.74651v + 2.04348





0.667414v

+ 1.61644v

+ ··· + 0.932022v + 2.13235

0.861460v

+ 2.23525v

+ ··· + 1.74651v + 2.04348



(ii) Obstruction class = 1

(iii) Cusp Shapes =

1558019

235911

3765626

235911

+ ··· −

4340683

235911

v +

3615109

235911

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

+ u + 1)

, c

− u

+ 2u

− u + 1)

, c

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

+ u

− u

− 2u

+ u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

, c

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

, c

+ y

+ 5y

+ 6y

+ 3y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 0.834826 + 0.083652I

a = 0

b = −0.428243 + 0.664531I

1.89061 + 1.10558I 3.79900 − 2.81207I

v = 0.834826 − 0.083652I

a = 0

b = −0.428243 − 0.664531I

1.89061 − 1.10558I 3.79900 + 2.81207I

v = −0.489858 + 0.681154I

a = 0

b = −0.428243 + 0.664531I

1.89061 − 2.95419I 1.04064 + 4.93773I

v = −0.489858 − 0.681154I

a = 0

b = −0.428243 − 0.664531I

1.89061 + 2.95419I 1.04064 − 4.93773I

v = −0.458424 + 0.081263I

a = 0

b = −1.073950 − 0.558752I

− 7.72290I 2.53591 + 10.48596I

v = −0.458424 − 0.081263I

a = 0

b = −1.073950 + 0.558752I

7.72290I 2.53591 − 10.48596I

v = 0.299588 + 0.356375I

a = 0

b = −1.073950 − 0.558752I

− 3.66314I −2.83009 − 2.28483I

v = 0.299588 − 0.356375I

a = 0

b = −1.073950 + 0.558752I

3.66314I −2.83009 + 2.28483I

v = −2.51133 + 0.49706I

a = 0

b = 1.002190 − 0.295542I

−1.89061 + 2.95419I 0.48408 − 6.69677I

v = −2.51133 − 0.49706I

a = 0

b = 1.002190 + 0.295542I

−1.89061 − 2.95419I 0.48408 + 6.69677I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 0.82520 + 2.42341I

a = 0

b = 1.002190 + 0.295542I

−1.89061 + 1.10558I −11.02954 + 1.23660I

v = 0.82520 − 2.42341I

a = 0

b = 1.002190 − 0.295542I

−1.89061 − 1.10558I −11.02954 − 1.23660I

IV. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

− u

+ 3u

− 2u + 1)(u

+ 42u

+ ··· − 173u − 1)

((u

+ u + 1)

)(u

− u

+ u

+ 1)(u

+ 8u

+ ··· + 3u + 1)

((u

− u + 1)

)(u

+ u

+ 5u

− u + 2)(u

− 8u

+ ··· + 2520u + 1732)

− u

+ 3u

− 2u + 1)(u

+ 2u

+ ··· + 20480u + 4096)

((u

− u + 1)

)(u

+ u

+ 1)(u

+ 8u

+ ··· + 3u + 1)

− 2u

+ 7u

− 5u + 1)(u

− u

+ 2u

− u + 1)

· (u

− u

+ ··· + 7631854u − 2351327)

− 2u

+ 7u

− 5u + 1)(u

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

· (u

− 7u

+ ··· − 18228u − 7979)

+ u

+ 3u

+ 2u + 1)(u

+ 2u

+ ··· + 20480u + 4096)

((u − 1)

)(u

+ u

+ ··· + u + 1)

− 7u

+ ··· − 65u + 1)

− u

+ ··· − u + 1)

+ 13u

+ ··· − 200u − 16)

((u + 1)

)(u

− u

+ ··· − u + 1)

− 7u

+ ··· − 65u + 1)

+ 5u

+ 7u

+ 2u + 1)(u

− 3u

+ 5u

− 4u

+ 2u

− u + 1)

· (u

+ 4u

+ ··· − 3u − 1)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

+ 5y

+ ··· + 2y + 1)(y

− 6y

+ ··· + 13671y − 1)

, c

((y

+ y + 1)

)(y

+ y

+ 3y

+ 2y + 1)(y

+ 42y

+ ··· − 173y − 1)

+ y + 1)

+ 9y

+ 31y

+ 19y + 4)

· (y

− 54y

+ ··· − 552548680y − 2999824)

, c

+ 5y

+ 7y

+ 2y + 1)

· (y

− 60y

+ ··· + 234881024y − 16777216)

+ 10y

+ 31y

− 11y + 1)(y

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

− 9y

+ ··· − 135685107448604y − 5528738660929)

+ 10y

+ 31y

− 11y + 1)(y

+ y

+ 5y

+ 6y

+ 3y + 1)

· (y

− 77y

+ ··· + 2964755496y − 63664441)

, c

(y − 1)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

− 63y

+ ··· − 2399y − 1)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

+ 21y

+ ··· + 15168y − 256)

− 11y

+ 31y

+ 10y + 1)(y

+ y

+ 5y

+ 6y

+ 3y + 1)

· (y

+ 2y

+ ··· − 29y − 1)