12a

0988

(K12a

0988

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,12

8 1

3,9

6 2 5 11 4 10

, c

Ideals for irreducible components

of X

par

= h−1.41244 × 10

− 3.32508 × 10

+ ··· + 3.39317 × 10

b + 1.80676 × 10

1.05888 × 10

+ 2.32754 × 10

+ ··· + 2.37522 × 10

a − 1.91976 × 10

+ 4u

+ ··· + 118u − 28i

= h−u

+ b + 2u, u

− u

+ ··· + a − 2, u

− 12u

+ ··· + 10u

− 1i

= h−186a

u − 87a

− 392a

u − 230a

+ 1248a

u + 506a

+ 2922au + 241b + 1289a + 282u − 78,

+ 2a

+ a

u − 8a

+ 10a

u − 30a

+ 17au − 29a + 8u − 13, u

− u − 1i

* 3 irreducible components of dim

= 0, with total 96 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−1.41 × 10

− 3.33 × 10

+ · · · + 3.39 × 10

b + 1.81 ×

, 1.06 × 10

+ 2.33 × 10

+ · · · + 2.38 × 10

a − 1.92 ×

, u

+ 4u

+ · · · + 118u − 28i

(i) Arc colorings











−u





−u

+ u





−0.445803u

− 0.979926u

+ ··· − 37.8294u + 8.08246

0.416260u

+ 0.979934u

+ ··· + 31.7679u − 5.32469





−u

+ 1

− 2u





−0.337813u

− 0.689657u

+ ··· − 32.8264u + 7.20315

0.182878u

+ 0.451924u

+ ··· + 7.26000u − 0.225713





−0.279350u

− 0.735303u

+ ··· − 17.4605u + 4.28483

0.356355u

+ 0.862570u

+ ··· + 35.2557u − 6.44200





0.864573u

+ 2.07589u

+ ··· + 74.2680u − 16.1219

−1.15159u

− 2.66334u

+ ··· − 108.556u + 24.4015





−u





−0.201645u

− 0.481748u

+ ··· − 23.0572u + 4.77346

0.172103u

+ 0.481755u

+ ··· + 16.9956u − 2.01569





0.878887u

+ 2.21773u

+ ··· + 57.9452u − 9.67980

−0.809320u

− 1.99188u

+ ··· − 55.2577u + 11.7419



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.841314u

− 1.63044u

+ ··· − 102.614u + 28.7772

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· − 125u − 1

, c

− 4u

+ ··· + 1186u + 1279

+ 19u

+ ··· − 73191u + 47449

, c

− 2u

+ ··· − 82u + 1

, c

− 4u

+ ··· + 118u + 28

+ 4u

+ ··· + 171u − 29

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 9y

+ ··· + 17785y −1

, c

− 52y

+ ··· + 50080220y −1635841

+ 38y

+ ··· − 35937183035y −2251407601

, c

+ 70y

+ ··· + 6500y −1

, c

− 84y

+ ··· + 6364y −784

− 14y

+ ··· + 39333y −841

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.885057 + 0.508714I

a = −1.25938 + 1.09741I

b = 1.313650 + 0.417375I

5.12644 + 8.14034I 0

u = 0.885057 − 0.508714I

a = −1.25938 − 1.09741I

b = 1.313650 − 0.417375I

5.12644 − 8.14034I 0

u = −1.016630 + 0.148616I

a = −1.354710 − 0.051330I

b = 1.152720 − 0.802920I

0.08436 − 3.60660I 0

u = −1.016630 − 0.148616I

a = −1.354710 + 0.051330I

b = 1.152720 + 0.802920I

0.08436 + 3.60660I 0

u = 0.636042 + 0.735204I

a = 0.771040 − 0.820398I

b = −1.385970 − 0.048806I

1.71288 + 2.51836I 0

u = 0.636042 − 0.735204I

a = 0.771040 + 0.820398I

b = −1.385970 + 0.048806I

1.71288 − 2.51836I 0

u = −0.896655 + 0.578537I

a = −0.888310 − 0.824652I

b = 1.234820 + 0.008364I

4.86851 − 0.44171I 0

u = −0.896655 − 0.578537I

a = −0.888310 + 0.824652I

b = 1.234820 − 0.008364I

4.86851 + 0.44171I 0

u = −0.906672 + 0.619011I

a = 1.24005 + 0.82717I

b = −1.36590 + 0.51916I

−0.78365 − 12.22400I 0

u = −0.906672 − 0.619011I

a = 1.24005 − 0.82717I

b = −1.36590 − 0.51916I

−0.78365 + 12.22400I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.044130 + 0.894273I

a = 0.0367545 − 0.0279078I

b = −1.218310 − 0.375774I

−3.41603 + 7.23977I 6.00000 − 5.79158I

u = −0.044130 − 0.894273I

a = 0.0367545 + 0.0279078I

b = −1.218310 + 0.375774I

−3.41603 − 7.23977I 6.00000 + 5.79158I

u = −0.769410 + 0.383812I

a = 1.04791 + 1.63891I

b = −1.180600 + 0.315893I

3.85880 − 3.01933I 9.96983 + 6.07662I

u = −0.769410 − 0.383812I

a = 1.04791 − 1.63891I

b = −1.180600 − 0.315893I

3.85880 + 3.01933I 9.96983 − 6.07662I

u = 0.836904 + 0.153168I

a = 1.49560 − 0.59674I

b = −1.343630 − 0.417966I

4.62859 + 1.66065I 18.4070 − 5.0043I

u = 0.836904 − 0.153168I

a = 1.49560 + 0.59674I

b = −1.343630 + 0.417966I

4.62859 − 1.66065I 18.4070 + 5.0043I

u = −0.709314 + 0.400333I

a = −0.178614 + 0.107335I

b = −0.011683 − 1.196020I

−5.11512 − 6.32617I 4.96847 + 7.99574I

u = −0.709314 − 0.400333I

a = −0.178614 − 0.107335I

b = −0.011683 + 1.196020I

−5.11512 + 6.32617I 4.96847 − 7.99574I

u = 0.746120 + 0.270176I

a = 0.431126 − 0.142662I

b = −0.078465 − 0.885255I

0.83816 + 3.48222I 8.75635 − 8.60776I

u = 0.746120 − 0.270176I

a = 0.431126 + 0.142662I

b = −0.078465 + 0.885255I

0.83816 − 3.48222I 8.75635 + 8.60776I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.22679

a = −1.24264

b = 0.596925

2.39981 0

u = 0.502427 + 0.575755I

a = 0.632278 + 0.570820I

b = 0.593291 − 0.256882I

−4.44506 + 2.24811I 4.48548 − 1.48739I

u = 0.502427 − 0.575755I

a = 0.632278 − 0.570820I

b = 0.593291 + 0.256882I

−4.44506 − 2.24811I 4.48548 + 1.48739I

u = −0.032139 + 0.742398I

a = 0.130428 − 0.345678I

b = 1.211830 − 0.239682I

2.35512 − 3.98609I 9.19250 + 6.28784I

u = −0.032139 − 0.742398I

a = 0.130428 + 0.345678I

b = 1.211830 + 0.239682I

2.35512 + 3.98609I 9.19250 − 6.28784I

u = 1.099620 + 0.619020I

a = 0.808964 − 0.837395I

b = −1.137280 + 0.162151I

−0.01258 − 2.07394I 0

u = 1.099620 − 0.619020I

a = 0.808964 + 0.837395I

b = −1.137280 − 0.162151I

−0.01258 + 2.07394I 0

u = 1.263810 + 0.241659I

a = 1.34299 + 0.51814I

b = −0.572476 − 0.299994I

−1.95538 − 0.27990I 0

u = 1.263810 − 0.241659I

a = 1.34299 − 0.51814I

b = −0.572476 + 0.299994I

−1.95538 + 0.27990I 0

u = 0.668449 + 0.182768I

a = −3.22718 − 0.46140I

b = 0.943084 + 0.285478I

−3.62595 + 4.73786I 7.87798 − 6.16232I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.668449 − 0.182768I

a = −3.22718 + 0.46140I

b = 0.943084 − 0.285478I

−3.62595 − 4.73786I 7.87798 + 6.16232I

u = 0.412391 + 0.548973I

a = 0.155129 + 0.716030I

b = 0.736431 + 0.522225I

−4.65764 + 1.61626I 2.82750 − 4.30956I

u = 0.412391 − 0.548973I

a = 0.155129 − 0.716030I

b = 0.736431 − 0.522225I

−4.65764 − 1.61626I 2.82750 + 4.30956I

u = −0.219158 + 0.552429I

a = 1.53288 + 0.30165I

b = −0.223631 + 0.772688I

−6.59300 + 3.04852I 0.086786 − 0.536752I

u = −0.219158 − 0.552429I

a = 1.53288 − 0.30165I

b = −0.223631 − 0.772688I

−6.59300 − 3.04852I 0.086786 + 0.536752I

u = 1.49203

a = −0.152282

b = −0.616971

6.96786 0

u = −1.51224 + 0.16519I

a = −0.052321 − 0.516958I

b = 0.511789 + 0.054440I

2.17563 − 4.90185I 0

u = −1.51224 − 0.16519I

a = −0.052321 + 0.516958I

b = 0.511789 − 0.054440I

2.17563 + 4.90185I 0

u = −1.53515 + 0.04841I

a = −0.797218 − 0.049788I

b = 0.833772 − 0.898244I

1.47969 − 3.26450I 0

u = −1.53515 − 0.04841I

a = −0.797218 + 0.049788I

b = 0.833772 + 0.898244I

1.47969 + 3.26450I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.089185 + 0.433722I

a = −1.301320 − 0.439390I

b = −1.085960 − 0.017290I

1.86291 + 0.12476I 6.99819 + 0.57622I

u = −0.089185 − 0.433722I

a = −1.301320 + 0.439390I

b = −1.085960 + 0.017290I

1.86291 − 0.12476I 6.99819 − 0.57622I

u = 0.068174 + 0.406678I

a = −1.01773 + 1.10026I

b = 0.051644 + 0.523892I

−1.15029 − 1.08308I −0.94169 + 2.86009I

u = 0.068174 − 0.406678I

a = −1.01773 − 1.10026I

b = 0.051644 − 0.523892I

−1.15029 + 1.08308I −0.94169 − 2.86009I

u = −0.410283

a = −1.01651

b = −0.420595

0.822559 13.9630

u = 0.323738 + 0.194743I

a = −0.41274 − 1.81065I

b = 0.838599 − 0.702790I

−4.62796 − 3.27883I 5.32821 − 2.18413I

u = 0.323738 − 0.194743I

a = −0.41274 + 1.81065I

b = 0.838599 + 0.702790I

−4.62796 + 3.27883I 5.32821 + 2.18413I

u = −1.62231 + 0.04624I

a = −2.43198 + 0.36370I

b = 1.173720 − 0.075551I

4.39357 − 5.56424I 0

u = −1.62231 − 0.04624I

a = −2.43198 − 0.36370I

b = 1.173720 + 0.075551I

4.39357 + 5.56424I 0

u = 1.62794 + 0.10132I

a = −0.214550 − 0.885759I

b = 0.06305 + 1.51910I

2.96097 + 8.14106I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.62794 − 0.10132I

a = −0.214550 + 0.885759I

b = 0.06305 − 1.51910I

2.96097 − 8.14106I 0

u = −1.63793 + 0.06004I

a = 0.303364 − 0.514810I

b = −0.104398 + 1.183180I

9.14294 − 4.64744I 0

u = −1.63793 − 0.06004I

a = 0.303364 + 0.514810I

b = −0.104398 − 1.183180I

9.14294 + 4.64744I 0

u = 1.64036 + 0.11039I

a = 1.66328 − 0.72027I

b = −1.267400 − 0.503838I

12.18870 + 4.90550I 0

u = 1.64036 − 0.11039I

a = 1.66328 + 0.72027I

b = −1.267400 + 0.503838I

12.18870 − 4.90550I 0

u = −1.63556 + 0.21597I

a = 1.85907 + 0.58231I

b = −1.50689 + 0.15630I

9.45657 − 6.06793I 0

u = −1.63556 − 0.21597I

a = 1.85907 − 0.58231I

b = −1.50689 − 0.15630I

9.45657 + 6.06793I 0

u = −1.66810 + 0.03752I

a = 1.97899 − 0.02011I

b = −1.57935 + 0.61268I

13.45550 − 2.36434I 0

u = −1.66810 − 0.03752I

a = 1.97899 + 0.02011I

b = −1.57935 − 0.61268I

13.45550 + 2.36434I 0

u = −1.67186 + 0.14663I

a = −1.88316 − 0.52112I

b = 1.42741 − 0.53981I

13.9239 − 10.7016I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.67186 − 0.14663I

a = −1.88316 + 0.52112I

b = 1.42741 + 0.53981I

13.9239 + 10.7016I 0

u = 1.68319 + 0.18230I

a = 1.95034 − 0.37437I

b = −1.51510 − 0.60638I

8.0665 + 15.3703I 0

u = 1.68319 − 0.18230I

a = 1.95034 + 0.37437I

b = −1.51510 + 0.60638I

8.0665 − 15.3703I 0

u = 1.69652 + 0.15096I

a = −1.69943 + 0.46959I

b = 1.357260 + 0.214340I

13.8959 + 3.3008I 0

u = 1.69652 − 0.15096I

a = −1.69943 − 0.46959I

b = 1.357260 − 0.214340I

13.8959 − 3.3008I 0

u = 1.71146 + 0.04198I

a = −1.78409 − 0.38247I

b = 1.44052 + 0.94034I

9.75066 + 4.39705I 0

u = 1.71146 − 0.04198I

a = −1.78409 + 0.38247I

b = 1.44052 − 0.94034I

9.75066 − 4.39705I 0

u = −1.76323 + 0.10512I

a = 1.39968 + 0.49586I

b = −1.086220 + 0.160688I

10.33700 − 0.79826I 0

u = −1.76323 − 0.10512I

a = 1.39968 − 0.49586I

b = −1.086220 − 0.160688I

10.33700 + 0.79826I 0

II. I

= h−u

+ b + 2u, u

− u

+ · · · + a − 2, u

− 12u

+ · · · + 10u

− 1i

(i) Arc colorings











−u





−u

+ u





−u

+ u

+ ··· − 11u + 2

− 2u





−u

+ 1

− 2u





−u

+ 12u

+ ··· − 3u + 3

− 4u

+ 4u





−u

+ 12u

+ ··· + 20u

− 5u

−u

+ 6u

− 12u

+ 9u

− 2u





−u

+ 11u

+ ··· − 2u + 3

− 7u

+ 17u

+ u

− 17u

− 4u

+ 7u

+ 4u

− u





−u





−u

+ 12u

+ ··· − 10u + 1

− 10u

+ ··· − 3u + 1





− 12u

+ ··· − 20u

+ u

− 9u

+ 31u

− 51u

+ 41u

− 15u

+ 3u



(ii) Obstruction class = 1

(iii) Cusp Shapes = 3u

−u

−39u

+ 14u

+ 203u

−80u

−541u

+ 235u

785u

− 372u

− 615u

+ 311u

+ 247u

− 130u

− 39u

+ 18u + 1

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 6u

+ ··· + 5u − 1

− 3u

+ ··· − 7u

+ 1

− u

+ ··· − 3u + 1

, c

− u

+ ··· − 2u + 1

+ 3u

+ ··· + 7u

− 1

, c

− 12u

+ ··· + 10u

− 1

+ u

+ ··· − 2u − 1

+ 3u

+ ··· − u − 1

, c

− 12u

+ ··· − 10u

+ 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 12y

+ ··· + 15y −1

, c

− 17y

+ ··· + 14y −1

− 3y

+ ··· + 3y −1

, c

+ 17y

+ ··· − 10y −1

, c

− 24y

+ ··· + 20y −1

− 3y

+ ··· + 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.12483

a = −1.57050

b = 0.826480

2.87361 16.9180

u = 0.765149 + 0.421591I

a = 1.35270 − 0.57990I

b = −1.49033 − 0.17765I

0.68195 + 1.52103I 7.26853 − 3.12009I

u = 0.765149 − 0.421591I

a = 1.35270 + 0.57990I

b = −1.49033 + 0.17765I

0.68195 − 1.52103I 7.26853 + 3.12009I

u = 1.178570 + 0.219790I

a = 1.42225 − 0.62684I

b = −0.890871 + 0.465689I

−1.81193 − 2.25763I 5.66700 + 2.84264I

u = 1.178570 − 0.219790I

a = 1.42225 + 0.62684I

b = −0.890871 − 0.465689I

−1.81193 + 2.25763I 5.66700 − 2.84264I

u = −0.714795 + 0.288375I

a = −1.12109 − 1.23941I

b = 1.242710 − 0.158712I

3.77071 − 1.06837I 10.68484 + 0.89742I

u = −0.714795 − 0.288375I

a = −1.12109 + 1.23941I

b = 1.242710 + 0.158712I

3.77071 + 1.06837I 10.68484 − 0.89742I

u = 1.51456

a = 0.620258

b = 0.445096

6.54472 −0.282310

u = −1.51854 + 0.10060I

a = −0.238616 − 0.104806I

b = −0.418499 + 0.493694I

1.55012 − 5.50234I 4.53425 + 6.47331I

u = −1.51854 − 0.10060I

a = −0.238616 + 0.104806I

b = −0.418499 − 0.493694I

1.55012 + 5.50234I 4.53425 − 6.47331I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.284877 + 0.277612I

a = −1.61523 + 1.23649I

b = −0.612500 − 0.509030I

−4.75398 + 4.11120I 3.36378 − 6.09217I

u = 0.284877 − 0.277612I

a = −1.61523 − 1.23649I

b = −0.612500 + 0.509030I

−4.75398 − 4.11120I 3.36378 + 6.09217I

u = 1.66968 + 0.06964I

a = −1.69186 + 0.32947I

b = 1.291110 + 0.442823I

12.32780 + 2.39306I 10.46353 − 1.14209I

u = 1.66968 − 0.06964I

a = −1.69186 − 0.32947I

b = 1.291110 − 0.442823I

12.32780 − 2.39306I 10.46353 + 1.14209I

u = −0.300477

a = 3.94004

b = 0.573825

0.201181 −3.47720

u = −1.70957 + 0.08018I

a = 1.89695 − 0.09951I

b = −1.54432 + 0.54215I

9.74452 − 3.40985I 9.93902 + 0.00636I

u = −1.70957 − 0.08018I

a = 1.89695 + 0.09951I

b = −1.54432 − 0.54215I

9.74452 + 3.40985I 9.93902 − 0.00636I

III. I

h−186a

u−392a

u+· · ·+1289a−78, a

u+10a

u+· · ·−29a−13, u

−u−1i

(i) Arc colorings











−u − 1





−u − 1





0.771784a

u + 1.62656a

u + ··· − 5.34855a + 0.323651





−u





0.0829876a

u − 0.136929a

u + ··· − 2.32780a − 0.481328

−0.597510a

u − 0.614108a

u + ··· + 3.56017a + 0.265560





−1.35270a

u − 1.66805a

u + ··· + 9.64315a + 1.04564

1.86722a

u + 2.41909a

u + ··· − 10.8755a − 0.829876





1.35270a

u + 1.66805a

u + ··· − 9.64315a − 1.04564

−1.86722a

u − 2.41909a

u + ··· + 10.8755a + 0.829876





−u





−1.90456a

u − 4.20747a

u + ··· + 17.4730a + 0.846473

2.67635a

u + 5.83402a

u + ··· − 21.8216a − 0.522822





1.14938a

u + 1.15353a

u + ··· − 5.39004a − 0.0663900

−1.51037a

u − 2.10788a

u + ··· + 12.1660a + 1.56017



(ii) Obstruction class = −1

(iii) Cusp Shapes = 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 4u

+ 2u

+ 8u

− 5u

− 4u

+ u

+ 7u

+ 3u + 1

, c

+ 4u

+ 2u

− 8u

− 5u

+ 5u

− 4u

− u

+ 7u

− 3u + 1

− 2u

− 4u

− 7u

− u

− 8u

+ u

− 9u

+ 5u − 5

, c

+ 2u

− u

− 2u

− u

+ u

+ u − 1

, c

+ u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 12y

+ ··· + 5y + 1

− 4y

+ ··· + 65y + 25

, c

+ 4y

+ 2y

− 8y

− 5y

+ 5y

− 4y

− y

+ 7y

− 3y + 1

, c

− 3y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.618034

a = −0.701459 + 0.560253I

b = −0.209607 + 0.335701I

0.986960 10.0000

u = −0.618034

a = −0.701459 − 0.560253I

b = −0.209607 − 0.335701I

0.986960 10.0000

u = −0.618034

a = −2.16824 + 1.11936I

b = 1.65031 + 0.20788I

0.986960 10.0000

u = −0.618034

a = −2.16824 − 1.11936I

b = 1.65031 − 0.20788I

0.986960 10.0000

u = −0.618034

a = 3.73940

b = −0.881412

0.986960 10.0000

u = 1.61803

a = −0.0559753 + 0.0335315I

b = −0.193167 − 0.796854I

8.88264 10.0000

u = 1.61803

a = −0.0559753 − 0.0335315I

b = −0.193167 + 0.796854I

8.88264 10.0000

u = 1.61803

a = −2.24197 + 0.12571I

b = 1.77275 + 0.46564I

8.88264 10.0000

u = 1.61803

a = −2.24197 − 0.12571I

b = 1.77275 − 0.46564I

8.88264 10.0000

u = 1.61803

a = 2.59589

b = −1.15917

8.88264 10.0000

IV. u-Polynomials

Crossings u-Polynomials at each crossing

− 4u

+ 2u

+ 8u

− 5u

− 4u

+ u

+ 7u

+ 3u + 1)

· (u

− 6u

+ ··· + 5u − 1)(u

− 9u

+ ··· − 125u − 1)

+ 4u

+ 2u

− 8u

− 5u

+ 5u

− 4u

− u

+ 7u

− 3u + 1)

· (u

− 3u

+ ··· − 7u

+ 1)(u

− 4u

+ ··· + 1186u + 1279)

− 2u

− 4u

− 7u

− u

− 8u

+ u

− 9u

+ 5u − 5)

· (u

− u

+ ··· − 3u + 1)(u

+ 19u

+ ··· − 73191u + 47449)

, c

+ 2u

+ ··· + u − 1)(u

− u

+ ··· − 2u + 1)

· (u

− 2u

+ ··· − 82u + 1)

+ 4u

+ 2u

− 8u

− 5u

+ 5u

− 4u

− u

+ 7u

− 3u + 1)

· (u

+ 3u

+ ··· + 7u

− 1)(u

− 4u

+ ··· + 1186u + 1279)

, c

((u

+ u − 1)

)(u

− 12u

+ ··· + 10u

− 1)

· (u

− 4u

+ ··· + 118u + 28)

+ 2u

+ ··· + u − 1)(u

+ u

+ ··· − 2u − 1)

· (u

− 2u

+ ··· − 82u + 1)

+ 2u

+ ··· + u − 1)(u

+ 3u

+ ··· − u − 1)

· (u

+ 4u

+ ··· + 171u − 29)

, c

((u

+ u − 1)

)(u

− 12u

+ ··· − 10u

+ 1)

· (u

− 4u

+ ··· + 118u + 28)

V. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 12y

+ ··· + 5y + 1)(y

+ 12y

+ ··· + 15y −1)

· (y

+ 9y

+ ··· + 17785y −1)

, c

− 12y

+ ··· + 5y + 1)(y

− 17y

+ ··· + 14y −1)

· (y

− 52y

+ ··· + 50080220y −1635841)

− 4y

+ ··· + 65y + 25)(y

− 3y

+ ··· + 3y −1)

· (y

+ 38y

+ ··· − 35937183035y −2251407601)

, c

+ 4y

+ 2y

− 8y

− 5y

+ 5y

− 4y

− y

+ 7y

− 3y + 1)

· (y

+ 17y

+ ··· − 10y −1)(y

+ 70y

+ ··· + 6500y −1)

, c

((y

− 3y + 1)

)(y

− 24y

+ ··· + 20y −1)

· (y

− 84y

+ ··· + 6364y −784)

+ 4y

+ 2y

− 8y

− 5y

+ 5y

− 4y

− y

+ 7y

− 3y + 1)

· (y

− 3y

+ ··· + 3y −1)(y

− 14y

+ ··· + 39333y −841)