12a

0786

(K12a

0786

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,7

3,11

4 9 1 6 12 5 10

, c

Ideals for irreducible components

of X

par

= h7.76879 × 10

103

+ 8.52236 × 10

102

+ ··· + 3.56472 × 10

b − 4.99373 × 10

− 6.43118 × 10

103

− 4.09372 × 10

102

+ ··· + 2.49530 × 10

a + 1.23254 × 10

, u

104

+ u

103

+ ··· − 7u + 7i

= h−2u

+ 5u

+ ··· + b − 1, 2u

− u

+ ··· + a − 1, u

− 3u

+ ··· + u + 1i

* 2 irreducible components of dim

= 0, with total 124 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

= h7.77 × 10

103

+ 8.52 × 10

102

+ · · · + 3.56 × 10

b − 4.99 ×

, −6.43 × 10

103

− 4.09 × 10

102

+ · · · + 2.50 × 10

a + 1.23 ×

, u

104

+ u

103

+ · · · − 7u + 7i

(i) Arc colorings















−u

+ u





0.257732u

103

+ 1.64057u

102

+ ··· − 20.8766u − 4.93944

−2.17936u

103

− 2.39075u

102

+ ··· + 25.2220u + 14.0088





4.54650u

103

+ 4.71983u

102

+ ··· − 21.6024u − 22.5070

0.732669u

103

+ 0.154268u

102

+ ··· + 7.64667u + 3.76015





−u

+ 1





− u

+ u





− u

+ 1

−u





−1.07483u

103

+ 0.848416u

102

+ ··· − 4.82910u − 1.91321

−2.87953u

103

− 3.09296u

102

+ ··· + 28.4903u + 13.0462





1.07670u

103

+ 1.40144u

102

+ ··· + 0.0336515u − 10.1638

−0.478154u

103

− 0.659756u

102

+ ··· + 20.1108u + 3.76858





−0.224309u

103

+ 2.43305u

102

+ ··· − 12.2602u − 13.0672

−1.89620u

103

− 2.01139u

102

+ ··· + 26.0423u + 7.99311



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4.36792u

103

+ 16.1678u

102

+ ··· − 14.8053u − 125.030

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

104

+ 25u

103

+ ··· + 749u + 49

, c

104

+ u

103

+ ··· − 7u + 7

104

− 10u

102

+ ··· + 34258u + 3709

, c

104

− 2u

103

+ ··· − 728u + 121

, c

104

− u

103

+ ··· − u + 7

104

+ 11u

103

+ ··· + 131198u + 14113

104

+ 7u

103

+ ··· − u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

104

+ 115y

103

+ ··· + 32487y + 2401

, c

104

− 25y

103

+ ··· − 749y + 49

104

− 20y

103

+ ··· − 305407844y + 13756681

, c

104

+ 76y

103

+ ··· + 509890y + 14641

, c

104

+ 57y

103

+ ··· + 1693y + 49

104

− 43y

103

+ ··· − 10011615824y + 199176769

104

− 5y

103

+ ··· + 89y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.766662 + 0.632934I

a = 0.157630 + 0.376131I

b = 0.354923 + 0.313305I

2.70022 − 2.40792I 0

u = 0.766662 − 0.632934I

a = 0.157630 − 0.376131I

b = 0.354923 − 0.313305I

2.70022 + 2.40792I 0

u = 0.990161 + 0.226156I

a = 0.345510 + 0.630720I

b = 0.456131 − 0.442211I

−0.06685 − 3.01354I 0

u = 0.990161 − 0.226156I

a = 0.345510 − 0.630720I

b = 0.456131 + 0.442211I

−0.06685 + 3.01354I 0

u = −0.898218 + 0.484385I

a = −0.375200 + 1.107920I

b = 0.789176 − 1.165220I

3.58702 + 6.98929I 0

u = −0.898218 − 0.484385I

a = −0.375200 − 1.107920I

b = 0.789176 + 1.165220I

3.58702 − 6.98929I 0

u = 0.906841 + 0.328078I

a = 1.43990 + 0.82818I

b = −0.805047 − 0.092018I

−1.74282 − 5.46943I 0

u = 0.906841 − 0.328078I

a = 1.43990 − 0.82818I

b = −0.805047 + 0.092018I

−1.74282 + 5.46943I 0

u = 0.731510 + 0.614247I

a = −0.229128 + 0.377392I

b = 0.452360 + 0.444639I

2.77148 − 2.27111I 0

u = 0.731510 − 0.614247I

a = −0.229128 − 0.377392I

b = 0.452360 − 0.444639I

2.77148 + 2.27111I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.946665 + 0.445873I

a = 1.110950 − 0.256330I

b = −0.172865 + 0.593087I

−3.47387 + 7.06916I 0

u = −0.946665 − 0.445873I

a = 1.110950 + 0.256330I

b = −0.172865 − 0.593087I

−3.47387 − 7.06916I 0

u = 0.429102 + 0.835909I

a = 0.621121 − 0.556923I

b = −0.449537 + 0.417666I

3.48038 − 4.88988I 0

u = 0.429102 − 0.835909I

a = 0.621121 + 0.556923I

b = −0.449537 − 0.417666I

3.48038 + 4.88988I 0

u = 0.933574 + 0.046772I

a = 0.268196 − 0.407068I

b = −0.577101 − 1.046790I

−5.72348 + 1.88899I 0

u = 0.933574 − 0.046772I

a = 0.268196 + 0.407068I

b = −0.577101 + 1.046790I

−5.72348 − 1.88899I 0

u = 0.855864 + 0.353216I

a = 0.512007 + 0.795136I

b = −0.105151 − 0.893329I

−0.24953 − 3.56298I 0

u = 0.855864 − 0.353216I

a = 0.512007 − 0.795136I

b = −0.105151 + 0.893329I

−0.24953 + 3.56298I 0

u = −0.901014 + 0.209728I

a = −0.667920 − 0.366820I

b = −0.404203 + 1.238470I

−2.37554 − 0.53656I 0

u = −0.901014 − 0.209728I

a = −0.667920 + 0.366820I

b = −0.404203 − 1.238470I

−2.37554 + 0.53656I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.872757 + 0.636215I

a = −0.921173 − 0.839949I

b = 0.145920 + 0.925194I

−2.23261 + 2.46085I 0

u = −0.872757 − 0.636215I

a = −0.921173 + 0.839949I

b = 0.145920 − 0.925194I

−2.23261 − 2.46085I 0

u = −1.081480 + 0.026581I

a = −0.133652 − 0.172093I

b = 0.616078 − 0.692280I

−2.16276 − 6.51848I 0

u = −1.081480 − 0.026581I

a = −0.133652 + 0.172093I

b = 0.616078 + 0.692280I

−2.16276 + 6.51848I 0

u = −0.795173 + 0.379218I

a = −1.78364 − 0.31075I

b = 0.736381 + 0.569274I

−2.74142 + 1.90360I 0

u = −0.795173 − 0.379218I

a = −1.78364 + 0.31075I

b = 0.736381 − 0.569274I

−2.74142 − 1.90360I 0

u = −0.780756 + 0.394948I

a = 1.63110 − 0.64652I

b = 0.735324 − 0.701901I

1.33892 + 4.93257I 0

u = −0.780756 − 0.394948I

a = 1.63110 + 0.64652I

b = 0.735324 + 0.701901I

1.33892 − 4.93257I 0

u = −1.064430 + 0.374375I

a = −0.296034 + 0.425423I

b = −0.436153 − 0.006085I

0.83535 + 3.47388I 0

u = −1.064430 − 0.374375I

a = −0.296034 − 0.425423I

b = −0.436153 + 0.006085I

0.83535 − 3.47388I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.032620 + 0.455050I

a = −0.868126 − 0.506848I

b = 0.136396 + 0.458095I

0.43075 − 13.03650I 0

u = 1.032620 − 0.455050I

a = −0.868126 + 0.506848I

b = 0.136396 − 0.458095I

0.43075 + 13.03650I 0

u = 0.300979 + 0.788432I

a = 0.941826 + 0.087842I

b = −0.158311 − 0.511357I

2.84217 + 8.57300I 0

u = 0.300979 − 0.788432I

a = 0.941826 − 0.087842I

b = −0.158311 + 0.511357I

2.84217 − 8.57300I 0

u = 0.895050 + 0.778119I

a = −0.0114617 + 0.1300560I

b = 0.458745 + 0.554629I

3.11399 − 2.93489I 0

u = 0.895050 − 0.778119I

a = −0.0114617 − 0.1300560I

b = 0.458745 − 0.554629I

3.11399 + 2.93489I 0

u = −0.468867 + 0.652301I

a = 1.67663 − 0.15872I

b = −0.769802 − 0.269370I

4.96708 − 2.78599I 5.45184 + 0.I

u = −0.468867 − 0.652301I

a = 1.67663 + 0.15872I

b = −0.769802 + 0.269370I

4.96708 + 2.78599I 5.45184 + 0.I

u = −0.837269 + 0.858305I

a = 1.71955 − 1.12101I

b = −2.47926 − 0.90809I

6.98765 − 0.83385I 0

u = −0.837269 − 0.858305I

a = 1.71955 + 1.12101I

b = −2.47926 + 0.90809I

6.98765 + 0.83385I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.857688 + 0.848054I

a = 1.34507 − 1.62875I

b = −3.28470 − 0.20003I

5.55138 − 2.69728I 0

u = −0.857688 − 0.848054I

a = 1.34507 + 1.62875I

b = −3.28470 + 0.20003I

5.55138 + 2.69728I 0

u = 0.727404 + 0.308828I

a = 1.55109 − 0.19015I

b = −0.07706 + 1.94742I

−3.22727 − 1.25096I −2.00000 + 7.02823I

u = 0.727404 − 0.308828I

a = 1.55109 + 0.19015I

b = −0.07706 − 1.94742I

−3.22727 + 1.25096I −2.00000 − 7.02823I

u = 1.078300 + 0.561549I

a = 0.288763 − 0.501283I

b = 0.140095 + 0.441770I

1.39183 − 0.25582I 0

u = 1.078300 − 0.561549I

a = 0.288763 + 0.501283I

b = 0.140095 − 0.441770I

1.39183 + 0.25582I 0

u = −0.757240 + 0.174967I

a = 0.039857 − 0.279716I

b = −0.536813 + 0.538199I

−1.263330 + 0.418486I −7.09557 − 0.72347I

u = −0.757240 − 0.174967I

a = 0.039857 + 0.279716I

b = −0.536813 − 0.538199I

−1.263330 − 0.418486I −7.09557 + 0.72347I

u = −0.890714 + 0.843520I

a = 1.90421 − 1.78407I

b = −3.15861 − 0.74730I

6.78735 − 0.08301I 0

u = −0.890714 − 0.843520I

a = 1.90421 + 1.78407I

b = −3.15861 + 0.74730I

6.78735 + 0.08301I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.890419 + 0.847639I

a = −0.66583 − 1.29156I

b = 2.37783 + 0.54118I

4.51852 − 1.93015I 0

u = 0.890419 − 0.847639I

a = −0.66583 + 1.29156I

b = 2.37783 − 0.54118I

4.51852 + 1.93015I 0

u = 0.818432 + 0.920455I

a = −1.46291 − 0.80542I

b = 2.13933 − 0.57457I

9.65675 + 2.00371I 0

u = 0.818432 − 0.920455I

a = −1.46291 + 0.80542I

b = 2.13933 + 0.57457I

9.65675 − 2.00371I 0

u = 0.717756 + 0.257429I

a = −2.47456 − 0.58230I

b = −0.198074 + 0.179300I

0.59876 + 1.75726I −4.14188 + 1.37130I

u = 0.717756 − 0.257429I

a = −2.47456 + 0.58230I

b = −0.198074 − 0.179300I

0.59876 − 1.75726I −4.14188 − 1.37130I

u = −0.908019 + 0.843254I

a = 0.037172 + 0.239025I

b = −0.474318 + 0.556665I

3.46367 + 3.13699I 0

u = −0.908019 − 0.843254I

a = 0.037172 − 0.239025I

b = −0.474318 − 0.556665I

3.46367 − 3.13699I 0

u = −0.922624 + 0.832948I

a = −1.81548 + 1.58635I

b = 3.50548 + 0.24041I

6.68785 + 6.32651I 0

u = −0.922624 − 0.832948I

a = −1.81548 − 1.58635I

b = 3.50548 − 0.24041I

6.68785 − 6.32651I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.860422 + 0.899570I

a = 1.18975 + 2.21934I

b = −3.18431 − 0.74729I

5.25028 + 4.20090I 0

u = 0.860422 − 0.899570I

a = 1.18975 − 2.21934I

b = −3.18431 + 0.74729I

5.25028 − 4.20090I 0

u = −0.835559 + 0.923554I

a = −1.35608 + 1.79331I

b = 2.93378 − 0.19568I

9.6493 − 11.0115I 0

u = −0.835559 − 0.923554I

a = −1.35608 − 1.79331I

b = 2.93378 + 0.19568I

9.6493 + 11.0115I 0

u = 0.897180 + 0.864300I

a = 2.40675 + 0.58401I

b = −3.07009 + 1.40635I

8.90543 + 0.76441I 0

u = 0.897180 − 0.864300I

a = 2.40675 − 0.58401I

b = −3.07009 − 1.40635I

8.90543 − 0.76441I 0

u = 0.923845 + 0.837317I

a = 1.51875 + 0.63637I

b = −1.92655 + 1.55181I

4.41536 − 4.33842I 0

u = 0.923845 − 0.837317I

a = 1.51875 − 0.63637I

b = −1.92655 − 1.55181I

4.41536 + 4.33842I 0

u = −0.945789 + 0.818483I

a = −1.75271 + 1.29108I

b = 3.18525 + 1.25735I

5.27707 + 8.90594I 0

u = −0.945789 − 0.818483I

a = −1.75271 − 1.29108I

b = 3.18525 − 1.25735I

5.27707 − 8.90594I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.873603 + 0.897281I

a = −1.36566 − 1.37873I

b = 2.39646 − 0.67516I

12.37940 + 3.59050I 0

u = 0.873603 − 0.897281I

a = −1.36566 + 1.37873I

b = 2.39646 + 0.67516I

12.37940 − 3.59050I 0

u = −0.187535 + 0.719880I

a = 0.232590 + 0.647272I

b = −0.128930 + 0.419958I

3.68141 + 0.48804I 5.79013 − 0.50832I

u = −0.187535 − 0.719880I

a = 0.232590 − 0.647272I

b = −0.128930 − 0.419958I

3.68141 − 0.48804I 5.79013 + 0.50832I

u = −0.963501 + 0.810928I

a = −1.26184 + 1.52225I

b = 2.89267 + 0.00173I

6.59081 + 7.04791I 0

u = −0.963501 − 0.810928I

a = −1.26184 − 1.52225I

b = 2.89267 − 0.00173I

6.59081 − 7.04791I 0

u = −0.617883 + 0.408127I

a = −0.400975 − 0.043091I

b = −0.09166 − 1.74158I

1.87920 − 1.73073I 4.58908 − 1.47296I

u = −0.617883 − 0.408127I

a = −0.400975 + 0.043091I

b = −0.09166 + 1.74158I

1.87920 + 1.73073I 4.58908 + 1.47296I

u = 0.928998 + 0.851199I

a = −0.92786 − 2.44910I

b = 2.89100 + 0.71756I

8.80452 − 7.12890I 0

u = 0.928998 − 0.851199I

a = −0.92786 + 2.44910I

b = 2.89100 − 0.71756I

8.80452 + 7.12890I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.365151 + 0.631995I

a = −1.066770 + 0.402812I

b = −0.148212 − 0.556282I

−1.64752 − 3.05905I −1.73633 + 4.13553I

u = −0.365151 − 0.631995I

a = −1.066770 − 0.402812I

b = −0.148212 + 0.556282I

−1.64752 + 3.05905I −1.73633 − 4.13553I

u = 0.963585 + 0.856077I

a = 1.38676 + 1.16739I

b = −3.01233 + 0.20429I

12.0914 − 10.0706I 0

u = 0.963585 − 0.856077I

a = 1.38676 − 1.16739I

b = −3.01233 − 0.20429I

12.0914 + 10.0706I 0

u = −0.904384 + 0.920281I

a = −0.558498 + 0.960408I

b = 1.318600 − 0.099299I

12.29660 + 3.00090I 0

u = −0.904384 − 0.920281I

a = −0.558498 − 0.960408I

b = 1.318600 + 0.099299I

12.29660 − 3.00090I 0

u = 0.972962 + 0.849039I

a = −2.36110 − 0.95510I

b = 3.18761 − 1.65953I

4.89111 − 10.66500I 0

u = 0.972962 − 0.849039I

a = −2.36110 + 0.95510I

b = 3.18761 + 1.65953I

4.89111 + 10.66500I 0

u = −0.938245 + 0.909899I

a = 0.884162 + 1.060980I

b = 0.12123 − 1.71305I

12.18760 + 3.35080I 0

u = −0.938245 − 0.909899I

a = 0.884162 − 1.060980I

b = 0.12123 + 1.71305I

12.18760 − 3.35080I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.958471 + 0.889493I

a = 1.098670 − 0.306796I

b = −1.52693 − 0.70793I

12.11800 + 3.65766I 0

u = −0.958471 − 0.889493I

a = 1.098670 + 0.306796I

b = −1.52693 + 0.70793I

12.11800 − 3.65766I 0

u = 1.007110 + 0.835986I

a = 1.03463 + 1.30135I

b = −2.29795 + 0.08686I

9.05723 − 8.48405I 0

u = 1.007110 − 0.835986I

a = 1.03463 − 1.30135I

b = −2.29795 − 0.08686I

9.05723 + 8.48405I 0

u = −0.999143 + 0.845974I

a = 1.94604 − 1.15637I

b = −3.14503 − 1.10552I

9.1250 + 17.5346I 0

u = −0.999143 − 0.845974I

a = 1.94604 + 1.15637I

b = −3.14503 + 1.10552I

9.1250 − 17.5346I 0

u = 0.651033 + 0.030608I

a = −0.59854 + 1.49435I

b = 1.12942 − 0.94839I

0.72830 − 3.26919I −3.48089 + 6.93706I

u = 0.651033 − 0.030608I

a = −0.59854 − 1.49435I

b = 1.12942 + 0.94839I

0.72830 + 3.26919I −3.48089 − 6.93706I

u = −0.383604 + 0.502974I

a = −0.47635 − 1.37590I

b = 0.178945 + 0.823418I

−1.63832 + 1.39384I −2.50160 − 4.01659I

u = −0.383604 − 0.502974I

a = −0.47635 + 1.37590I

b = 0.178945 − 0.823418I

−1.63832 − 1.39384I −2.50160 + 4.01659I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.320616 + 0.461824I

a = −1.40865 + 0.41281I

b = 0.312590 + 0.113240I

1.35107 + 0.45706I 6.25564 − 0.31459I

u = 0.320616 − 0.461824I

a = −1.40865 − 0.41281I

b = 0.312590 − 0.113240I

1.35107 − 0.45706I 6.25564 + 0.31459I

u = 0.108145 + 0.451884I

a = −1.54856 − 1.08085I

b = 0.527286 + 0.804510I

0.38768 + 2.59628I 0.25241 − 3.90373I

u = 0.108145 − 0.451884I

a = −1.54856 + 1.08085I

b = 0.527286 − 0.804510I

0.38768 − 2.59628I 0.25241 + 3.90373I

II.

= h−2u

+5u

+· · ·+b−1, 2u

−u

+· · ·+a−1, u

−3u

+· · ·+u+1i

(i) Arc colorings















−u

+ u





−2u

+ u

+ ··· + 5u

+ 1

− 5u

+ ··· − 2u + 1





− 2u

+ ··· + 2u − 2

−u

+ u

+ ··· − 2u − 3





−u

+ 1





− u

+ u





− u

+ 1

−u





−u

+ u

+ ··· − u + 1

− 2u

+ ··· − u + 1





+ u

+ ··· − 4u + 1

− 3u

+ ··· − 2u − 3





−2u

+ u

+ ··· + u + 1

− 2u

+ ··· − u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = 9u

− u

− 27u

+ 3u

+ 86u

− 10u

− 164u

+ 28u

261u

− 47u

− 316u

+ 74u

+ 292u

− 76u

− 201u

+ 56u

+ 88u

− 31u

− 24u + 2

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 6u

+ ··· − 11u + 1

− 3u

+ ··· − u + 1

− u

+ ··· + 2u + 1

− u

+ ··· + 10u

+ 1

+ 10u

+ ··· + u + 1

− 3u

+ ··· + u + 1

+ 6u

+ ··· + 11u + 1

+ u

+ ··· + 10u

+ 1

− 6u

+ ··· + 8u + 1

+ 10u

+ ··· − u + 1

− 2u

+ ··· + u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 22y

+ ··· + 5y + 1

, c

− 6y

+ ··· − 11y + 1

− y

+ ··· + 2y + 1

, c

+ 19y

+ ··· + 20y + 1

, c

+ 20y

+ ··· + 19y + 1

− 12y

+ ··· − 10y + 1

+ 2y

+ ··· − y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.930125 + 0.251909I

a = −0.555551 + 1.090100I

b = −0.237834 − 0.115011I

−0.42842 + 4.43650I −4.15561 − 8.27213I

u = −0.930125 − 0.251909I

a = −0.555551 − 1.090100I

b = −0.237834 + 0.115011I

−0.42842 − 4.43650I −4.15561 + 8.27213I

u = −0.843361 + 0.606962I

a = −1.19766 − 0.86307I

b = 0.198932 + 1.255640I

−1.51818 + 2.38684I 3.66992 − 3.46346I

u = −0.843361 − 0.606962I

a = −1.19766 + 0.86307I

b = 0.198932 − 1.255640I

−1.51818 − 2.38684I 3.66992 + 3.46346I

u = 0.993297 + 0.523875I

a = 0.265213 − 0.240081I

b = 0.380693 − 0.228858I

1.17594 − 0.95837I −1.61521 + 3.89652I

u = 0.993297 − 0.523875I

a = 0.265213 + 0.240081I

b = 0.380693 + 0.228858I

1.17594 + 0.95837I −1.61521 − 3.89652I

u = 0.595627 + 0.611850I

a = −0.310105 − 0.045545I

b = −0.844286 − 0.027975I

2.48431 − 3.51175I 1.91261 + 6.52734I

u = 0.595627 − 0.611850I

a = −0.310105 + 0.045545I

b = −0.844286 + 0.027975I

2.48431 + 3.51175I 1.91261 − 6.52734I

u = 0.850202 + 0.853643I

a = −2.03545 − 1.33030I

b = 3.20640 − 0.94291I

6.68936 + 1.94064I 3.10110 − 3.51621I

u = 0.850202 − 0.853643I

a = −2.03545 + 1.33030I

b = 3.20640 + 0.94291I

6.68936 − 1.94064I 3.10110 + 3.51621I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.897079 + 0.812456I

a = −0.274825 − 0.094266I

b = −0.559706 + 1.176180I

2.08436 + 3.04014I −6.90827 − 2.70849I

u = −0.897079 − 0.812456I

a = −0.274825 + 0.094266I

b = −0.559706 − 1.176180I

2.08436 − 3.04014I −6.90827 + 2.70849I

u = 0.740567 + 0.185874I

a = 1.67918 − 0.06454I

b = −0.36120 + 1.64428I

−3.64557 − 0.76917I −11.12228 − 2.09345I

u = 0.740567 − 0.185874I

a = 1.67918 + 0.06454I

b = −0.36120 − 1.64428I

−3.64557 + 0.76917I −11.12228 + 2.09345I

u = 0.954211 + 0.815743I

a = 1.46027 + 1.84888I

b = −3.33935 + 0.17377I

6.36262 − 8.15795I 2.38095 + 8.44173I

u = 0.954211 − 0.815743I

a = 1.46027 − 1.84888I

b = −3.33935 − 0.17377I

6.36262 + 8.15795I 2.38095 − 8.44173I

u = −0.941711 + 0.919429I

a = −0.825370 − 0.992714I

b = −0.14284 + 1.66170I

11.93900 + 3.38003I −15.3248 − 4.1187I

u = −0.941711 − 0.919429I

a = −0.825370 + 0.992714I

b = −0.14284 − 1.66170I

11.93900 − 3.38003I −15.3248 + 4.1187I

u = −0.521628 + 0.220168I

a = 2.29430 − 0.58796I

b = −0.300816 + 1.237010I

1.17551 − 2.39551I 1.56153 + 4.24080I

u = −0.521628 − 0.220168I

a = 2.29430 + 0.58796I

b = −0.300816 − 1.237010I

1.17551 + 2.39551I 1.56153 − 4.24080I

III. u-Polynomials

Crossings u-Polynomials at each crossing

, c

− 6u

+ ··· − 11u + 1)(u

104

+ 25u

103

+ ··· + 749u + 49)

− 3u

+ ··· − u + 1)(u

104

+ u

103

+ ··· − 7u + 7)

− u

+ ··· + 2u + 1)(u

104

− 10u

102

+ ··· + 34258u + 3709)

− u

+ ··· + 10u

+ 1)(u

104

− 2u

103

+ ··· − 728u + 121)

+ 10u

+ ··· + u + 1)(u

104

− u

103

+ ··· − u + 7)

− 3u

+ ··· + u + 1)(u

104

+ u

103

+ ··· − 7u + 7)

+ 6u

+ ··· + 11u + 1)(u

104

+ 25u

103

+ ··· + 749u + 49)

+ u

+ ··· + 10u

+ 1)(u

104

− 2u

103

+ ··· − 728u + 121)

− 6u

+ ··· + 8u + 1)(u

104

+ 11u

103

+ ··· + 131198u + 14113)

+ 10u

+ ··· − u + 1)(u

104

− u

103

+ ··· − u + 7)

− 2u

+ ··· + u + 1)(u

104

+ 7u

103

+ ··· − u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 22y

+ ··· + 5y + 1)(y

104

+ 115y

103

+ ··· + 32487y + 2401)

, c

− 6y

+ ··· − 11y + 1)(y

104

− 25y

103

+ ··· − 749y + 49)

− y

+ ··· + 2y + 1)

· (y

104

− 20y

103

+ ··· − 305407844y + 13756681)

, c

+ 19y

+ ··· + 20y + 1)(y

104

+ 76y

103

+ ··· + 509890y + 14641)

, c

+ 20y

+ ··· + 19y + 1)(y

104

+ 57y

103

+ ··· + 1693y + 49)

− 12y

+ ··· − 10y + 1)

· (y

104

− 43y

103

+ ··· − 10011615824y + 199176769)

+ 2y

+ ··· − y + 1)(y

104

− 5y

103

+ ··· + 89y + 1)