12a
0488
(K12a
0488
)
A knot diagram
1
Linearized knot diagam
3 6 11 12 8 2 10 1 5 7 4 9
Solving Sequence
2,7
6
3,11
4 12 1 10 8 5 9
c
6
c
2
c
3
c
11
c
1
c
10
c
7
c
5
c
9
c
4
, c
8
, c
12
Ideals for irreducible components
2
of X
par
I
u
1
= h−1.65087 × 10
248
u
118
+ 2.72906 × 10
248
u
117
+ ··· + 2.57855 × 10
249
b + 1.16888 × 10
250
,
1.43063 × 10
250
u
118
6.87154 × 10
249
u
117
+ ··· + 4.89925 × 10
250
a 3.41245 × 10
250
,
u
119
+ 30u
117
+ ··· 45u + 19i
I
u
2
= h13267248u
31
+ 55919199u
30
+ ··· + 2842907b + 19270283,
9664909u
31
+ 35225564u
30
+ ··· + 2842907a + 34133711, u
32
+ 3u
31
+ ··· + u + 1i
* 2 irreducible components of dim
C
= 0, with total 151 representations.
1
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).
2
All coefficients of polynomials are rational numbers. But the coefficients are sometimes approximated
in decimal forms when there is not enough margin.
1
I. I
u
1
= h−1.65 × 10
248
u
118
+ 2.73 × 10
248
u
117
+ · · · + 2.58 × 10
249
b + 1.17 ×
10
250
, 1.43 × 10
250
u
118
6.87 × 10
249
u
117
+ · · · + 4.90 × 10
250
a 3.41 ×
10
250
, u
119
+ 30u
117
+ · · · 45u + 19i
(i) Arc colorings
a
2
=
0
u
a
7
=
1
0
a
6
=
1
u
2
a
3
=
u
u
3
+ u
a
11
=
0.292010u
118
+ 0.140257u
117
+ ··· 3.40277u + 0.696526
0.0640231u
118
0.105837u
117
+ ··· + 5.52131u 4.53310
a
4
=
0.762522u
118
+ 0.270935u
117
+ ··· + 39.1067u 1.83376
0.352113u
118
+ 0.127974u
117
+ ··· 14.0857u + 0.578793
a
12
=
0.245358u
118
0.0980200u
117
+ ··· 29.2465u + 7.46517
0.667052u
118
0.0422577u
117
+ ··· 19.9808u + 0.289591
a
1
=
u
3
u
5
+ u
3
+ u
a
10
=
0.356033u
118
+ 0.246094u
117
+ ··· 8.92408u + 5.22962
0.0640231u
118
0.105837u
117
+ ··· + 5.52131u 4.53310
a
8
=
0.0171301u
118
0.576448u
117
+ ··· + 57.5877u 21.0304
0.146326u
118
+ 0.138789u
117
+ ··· 4.58356u 0.367599
a
5
=
0.233262u
118
+ 0.761502u
117
+ ··· 46.6619u + 20.3764
0.272002u
118
+ 0.183648u
117
+ ··· 4.44302u + 5.56541
a
9
=
0.0232125u
118
0.478908u
117
+ ··· + 49.3275u 17.7018
0.171123u
118
+ 0.0186106u
117
+ ··· + 8.48928u 4.65434
(ii) Obstruction class = 1
(iii) Cusp Shapes = 1.15974u
118
+ 0.0943856u
117
+ ··· + 31.1713u + 1.75865
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
119
+ 60u
118
+ ··· 4929u 361
c
2
, c
6
u
119
+ 30u
117
+ ··· 45u + 19
c
3
, c
4
, c
11
u
119
+ 3u
118
+ ··· 236u + 29
c
5
u
119
8u
118
+ ··· + 84246u 6676
c
7
, c
10
u
119
+ 6u
118
+ ··· 1800u 200
c
8
, c
12
u
119
3u
118
+ ··· 1224u + 2727
c
9
u
119
+ 2u
118
+ ··· 715329093u 124700713
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
119
+ 12y
118
+ ··· + 9244951y 130321
c
2
, c
6
y
119
+ 60y
118
+ ··· 4929y 361
c
3
, c
4
, c
11
y
119
131y
118
+ ··· 91218y 841
c
5
y
119
30y
118
+ ··· + 2009862604y 44568976
c
7
, c
10
y
119
+ 84y
118
+ ··· 1890400y 40000
c
8
, c
12
y
119
+ 89y
118
+ ··· 366139602y 7436529
c
9
y
119
62y
118
+ ··· + 559579641828065865y 15550267822708369
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.078496 + 1.006620I
a = 0.066856 + 0.754688I
b = 0.594329 + 0.314337I
5.14761 + 1.62016I 0
u = 0.078496 1.006620I
a = 0.066856 0.754688I
b = 0.594329 0.314337I
5.14761 1.62016I 0
u = 0.915404 + 0.371979I
a = 0.64387 + 1.32526I
b = 0.52974 + 1.37782I
6.73097 5.70611I 0
u = 0.915404 0.371979I
a = 0.64387 1.32526I
b = 0.52974 1.37782I
6.73097 + 5.70611I 0
u = 0.971804 + 0.146641I
a = 1.073250 + 0.068787I
b = 0.607735 + 0.718070I
4.79116 2.35384I 0
u = 0.971804 0.146641I
a = 1.073250 0.068787I
b = 0.607735 0.718070I
4.79116 + 2.35384I 0
u = 0.610950 + 0.757773I
a = 0.088819 + 1.042710I
b = 0.365398 + 0.311650I
0.348231 + 0.671437I 0
u = 0.610950 0.757773I
a = 0.088819 1.042710I
b = 0.365398 0.311650I
0.348231 0.671437I 0
u = 0.959729 + 0.055167I
a = 0.740938 0.325683I
b = 0.188991 0.919450I
3.27901 1.00446I 0
u = 0.959729 0.055167I
a = 0.740938 + 0.325683I
b = 0.188991 + 0.919450I
3.27901 + 1.00446I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.483520 + 0.920992I
a = 0.761211 1.077530I
b = 1.178340 0.167584I
1.52635 2.31331I 0
u = 0.483520 0.920992I
a = 0.761211 + 1.077530I
b = 1.178340 + 0.167584I
1.52635 + 2.31331I 0
u = 0.557621 + 0.879341I
a = 1.156820 0.285053I
b = 0.682531 0.473571I
0.04577 + 3.96034I 0
u = 0.557621 0.879341I
a = 1.156820 + 0.285053I
b = 0.682531 + 0.473571I
0.04577 3.96034I 0
u = 1.022200 + 0.281034I
a = 0.758036 0.978664I
b = 0.53987 1.35453I
11.3125 11.9691I 0
u = 1.022200 0.281034I
a = 0.758036 + 0.978664I
b = 0.53987 + 1.35453I
11.3125 + 11.9691I 0
u = 0.001806 + 0.927592I
a = 0.78130 2.73177I
b = 0.345980 + 0.917689I
9.46778 + 4.21449I 0
u = 0.001806 0.927592I
a = 0.78130 + 2.73177I
b = 0.345980 0.917689I
9.46778 4.21449I 0
u = 0.297606 + 1.031700I
a = 0.945429 + 0.802633I
b = 0.094023 1.195090I
4.19251 + 1.14824I 0
u = 0.297606 1.031700I
a = 0.945429 0.802633I
b = 0.094023 + 1.195090I
4.19251 1.14824I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.690673 + 0.825474I
a = 0.150303 0.265933I
b = 0.425489 + 0.705888I
5.15633 4.20772I 0
u = 0.690673 0.825474I
a = 0.150303 + 0.265933I
b = 0.425489 0.705888I
5.15633 + 4.20772I 0
u = 0.861339 + 0.322459I
a = 0.654805 + 0.598022I
b = 0.445085 + 1.258140I
4.09112 + 7.73397I 0
u = 0.861339 0.322459I
a = 0.654805 0.598022I
b = 0.445085 1.258140I
4.09112 7.73397I 0
u = 0.755924 + 0.473545I
a = 0.289346 0.331743I
b = 0.254049 0.757979I
0.21533 + 1.51725I 0
u = 0.755924 0.473545I
a = 0.289346 + 0.331743I
b = 0.254049 + 0.757979I
0.21533 1.51725I 0
u = 0.247532 + 1.081640I
a = 1.69931 0.65268I
b = 0.211828 0.379548I
10.56410 5.20427I 0
u = 0.247532 1.081640I
a = 1.69931 + 0.65268I
b = 0.211828 + 0.379548I
10.56410 + 5.20427I 0
u = 0.391633 + 1.039930I
a = 1.14573 + 1.23527I
b = 0.344583 1.276950I
3.11586 + 3.83174I 0
u = 0.391633 1.039930I
a = 1.14573 1.23527I
b = 0.344583 + 1.276950I
3.11586 3.83174I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.346137 + 1.071550I
a = 0.095834 + 0.830795I
b = 0.11817 1.56259I
14.9180 + 0.0272I 0
u = 0.346137 1.071550I
a = 0.095834 0.830795I
b = 0.11817 + 1.56259I
14.9180 0.0272I 0
u = 0.624726 + 0.597146I
a = 0.588397 + 0.077030I
b = 0.382126 0.228734I
0.091081 + 1.070900I 0
u = 0.624726 0.597146I
a = 0.588397 0.077030I
b = 0.382126 + 0.228734I
0.091081 1.070900I 0
u = 0.480364 + 0.710793I
a = 1.43891 0.64056I
b = 0.977189 + 0.403194I
2.15917 1.67533I 0
u = 0.480364 0.710793I
a = 1.43891 + 0.64056I
b = 0.977189 0.403194I
2.15917 + 1.67533I 0
u = 0.397106 + 1.070930I
a = 2.06076 + 1.01698I
b = 0.018775 1.148820I
7.02483 + 1.08003I 0
u = 0.397106 1.070930I
a = 2.06076 1.01698I
b = 0.018775 + 1.148820I
7.02483 1.08003I 0
u = 0.449317 + 1.052270I
a = 0.803311 + 0.104774I
b = 0.510546 + 0.420152I
5.15832 3.39168I 0
u = 0.449317 1.052270I
a = 0.803311 0.104774I
b = 0.510546 0.420152I
5.15832 + 3.39168I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.340211 + 1.097430I
a = 0.483940 0.075688I
b = 0.52633 1.74736I
15.3194 + 3.5604I 0
u = 0.340211 1.097430I
a = 0.483940 + 0.075688I
b = 0.52633 + 1.74736I
15.3194 3.5604I 0
u = 0.376858 + 1.086750I
a = 1.80905 + 0.75040I
b = 0.622858 1.182940I
7.24480 3.53534I 0
u = 0.376858 1.086750I
a = 1.80905 0.75040I
b = 0.622858 + 1.182940I
7.24480 + 3.53534I 0
u = 0.694027 + 0.468933I
a = 1.232930 + 0.362811I
b = 0.833219 0.067656I
0.41000 + 3.05649I 0. 3.81841I
u = 0.694027 0.468933I
a = 1.232930 0.362811I
b = 0.833219 + 0.067656I
0.41000 3.05649I 0. + 3.81841I
u = 0.320264 + 1.120320I
a = 0.795246 1.083370I
b = 1.078340 0.475511I
11.25190 3.18862I 0
u = 0.320264 1.120320I
a = 0.795246 + 1.083370I
b = 1.078340 + 0.475511I
11.25190 + 3.18862I 0
u = 0.456472 + 1.081110I
a = 0.96919 + 1.09392I
b = 1.55906 + 0.30538I
4.93294 + 3.53621I 0
u = 0.456472 1.081110I
a = 0.96919 1.09392I
b = 1.55906 0.30538I
4.93294 3.53621I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.048098 + 0.813192I
a = 0.546020 1.277930I
b = 0.10854 + 1.69149I
13.22850 1.96623I 4.87577 + 2.86715I
u = 0.048098 0.813192I
a = 0.546020 + 1.277930I
b = 0.10854 1.69149I
13.22850 + 1.96623I 4.87577 2.86715I
u = 0.783036 + 0.906435I
a = 0.732493 0.007307I
b = 0.282695 + 0.746721I
1.02424 + 4.22944I 0
u = 0.783036 0.906435I
a = 0.732493 + 0.007307I
b = 0.282695 0.746721I
1.02424 4.22944I 0
u = 0.590224 + 1.044060I
a = 0.791102 + 0.738149I
b = 0.953043 0.051008I
2.07376 7.99377I 0
u = 0.590224 1.044060I
a = 0.791102 0.738149I
b = 0.953043 + 0.051008I
2.07376 + 7.99377I 0
u = 0.515096 + 1.085300I
a = 1.37662 0.49500I
b = 0.176990 + 1.072700I
2.11670 + 3.02849I 0
u = 0.515096 1.085300I
a = 1.37662 + 0.49500I
b = 0.176990 1.072700I
2.11670 3.02849I 0
u = 0.661505 + 1.003050I
a = 0.250669 0.344058I
b = 0.088473 + 0.250492I
1.11997 + 4.05223I 0
u = 0.661505 1.003050I
a = 0.250669 + 0.344058I
b = 0.088473 0.250492I
1.11997 4.05223I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.992539 + 0.678641I
a = 0.207770 + 0.955665I
b = 0.046228 + 1.099290I
4.92580 0.78909I 0
u = 0.992539 0.678641I
a = 0.207770 0.955665I
b = 0.046228 1.099290I
4.92580 + 0.78909I 0
u = 0.502054 + 1.093030I
a = 1.22292 1.16724I
b = 0.214525 + 1.380870I
6.25245 + 6.03157I 0
u = 0.502054 1.093030I
a = 1.22292 + 1.16724I
b = 0.214525 1.380870I
6.25245 6.03157I 0
u = 0.733796 + 0.280195I
a = 1.83401 0.78059I
b = 1.084740 + 0.057816I
7.20334 6.18714I 2.58267 + 3.56489I
u = 0.733796 0.280195I
a = 1.83401 + 0.78059I
b = 1.084740 0.057816I
7.20334 + 6.18714I 2.58267 3.56489I
u = 0.154870 + 1.212180I
a = 0.281737 1.085590I
b = 0.257713 + 1.193340I
9.35505 + 4.62458I 0
u = 0.154870 1.212180I
a = 0.281737 + 1.085590I
b = 0.257713 1.193340I
9.35505 4.62458I 0
u = 0.271992 + 0.726580I
a = 0.928303 + 0.091287I
b = 0.616444 + 1.054960I
1.81332 0.95297I 7.18259 4.49578I
u = 0.271992 0.726580I
a = 0.928303 0.091287I
b = 0.616444 1.054960I
1.81332 + 0.95297I 7.18259 + 4.49578I
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.543939 + 1.101550I
a = 1.65517 0.58118I
b = 0.52640 + 1.34651I
2.49241 8.21984I 0
u = 0.543939 1.101550I
a = 1.65517 + 0.58118I
b = 0.52640 1.34651I
2.49241 + 8.21984I 0
u = 0.067829 + 0.768409I
a = 0.96334 + 1.71841I
b = 0.266423 + 0.709161I
5.13022 + 1.42643I 5.68961 4.05615I
u = 0.067829 0.768409I
a = 0.96334 1.71841I
b = 0.266423 0.709161I
5.13022 1.42643I 5.68961 + 4.05615I
u = 0.547528 + 1.099960I
a = 2.12152 + 0.21831I
b = 0.210386 + 1.214010I
13.4502 7.1902I 0
u = 0.547528 1.099960I
a = 2.12152 0.21831I
b = 0.210386 1.214010I
13.4502 + 7.1902I 0
u = 0.683513 + 0.356634I
a = 0.618553 0.865136I
b = 0.488959 1.144820I
0.31858 + 3.47575I 1.97968 4.35878I
u = 0.683513 0.356634I
a = 0.618553 + 0.865136I
b = 0.488959 + 1.144820I
0.31858 3.47575I 1.97968 + 4.35878I
u = 0.652062 + 0.393739I
a = 0.80892 1.88179I
b = 0.016975 1.229550I
11.36620 + 2.46799I 7.23736 0.73082I
u = 0.652062 0.393739I
a = 0.80892 + 1.88179I
b = 0.016975 + 1.229550I
11.36620 2.46799I 7.23736 + 0.73082I
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.510279 + 1.132000I
a = 0.585905 0.278024I
b = 0.128771 + 1.287050I
6.19002 3.93927I 0
u = 0.510279 1.132000I
a = 0.585905 + 0.278024I
b = 0.128771 1.287050I
6.19002 + 3.93927I 0
u = 0.543113 + 1.116850I
a = 2.05669 0.15147I
b = 0.79420 + 1.37241I
13.8603 + 3.9134I 0
u = 0.543113 1.116850I
a = 2.05669 + 0.15147I
b = 0.79420 1.37241I
13.8603 3.9134I 0
u = 0.674419 + 0.342927I
a = 1.00312 2.08896I
b = 0.53117 1.32772I
11.59410 + 0.83287I 6.75862 0.75002I
u = 0.674419 0.342927I
a = 1.00312 + 2.08896I
b = 0.53117 + 1.32772I
11.59410 0.83287I 6.75862 + 0.75002I
u = 0.096088 + 1.248340I
a = 0.285246 0.360833I
b = 0.21055 + 1.53910I
12.56200 2.66586I 0
u = 0.096088 1.248340I
a = 0.285246 + 0.360833I
b = 0.21055 1.53910I
12.56200 + 2.66586I 0
u = 0.538749 + 1.136970I
a = 0.972594 0.790349I
b = 1.369210 0.022434I
9.7097 + 11.0092I 0
u = 0.538749 1.136970I
a = 0.972594 + 0.790349I
b = 1.369210 + 0.022434I
9.7097 11.0092I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.437001 + 0.581796I
a = 0.618989 + 0.090764I
b = 0.191919 0.254301I
0.049496 + 1.115420I 0.81495 4.80874I
u = 0.437001 0.581796I
a = 0.618989 0.090764I
b = 0.191919 + 0.254301I
0.049496 1.115420I 0.81495 + 4.80874I
u = 0.593259 + 0.405090I
a = 1.50120 0.06643I
b = 0.426259 1.057760I
3.89565 0.82573I 5.97212 + 1.08099I
u = 0.593259 0.405090I
a = 1.50120 + 0.06643I
b = 0.426259 + 1.057760I
3.89565 + 0.82573I 5.97212 1.08099I
u = 0.685821 + 0.140809I
a = 0.088618 0.127752I
b = 0.227172 0.754115I
0.172712 + 1.341810I 4.35669 5.00388I
u = 0.685821 0.140809I
a = 0.088618 + 0.127752I
b = 0.227172 + 0.754115I
0.172712 1.341810I 4.35669 + 5.00388I
u = 0.589368 + 1.159650I
a = 1.61520 + 0.63825I
b = 0.45460 1.37656I
6.6101 13.0759I 0
u = 0.589368 1.159650I
a = 1.61520 0.63825I
b = 0.45460 + 1.37656I
6.6101 + 13.0759I 0
u = 0.561619 + 1.194920I
a = 0.411856 0.225658I
b = 0.769675 0.464014I
7.90142 3.02909I 0
u = 0.561619 1.194920I
a = 0.411856 + 0.225658I
b = 0.769675 + 0.464014I
7.90142 + 3.02909I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.621678 + 1.167560I
a = 1.78507 + 0.15260I
b = 0.66971 1.49268I
9.1673 + 11.3333I 0
u = 0.621678 1.167560I
a = 1.78507 0.15260I
b = 0.66971 + 1.49268I
9.1673 11.3333I 0
u = 0.537970 + 0.316163I
a = 0.241745 + 0.437529I
b = 0.305665 1.213190I
4.04390 1.75558I 4.82168 + 1.54778I
u = 0.537970 0.316163I
a = 0.241745 0.437529I
b = 0.305665 + 1.213190I
4.04390 + 1.75558I 4.82168 1.54778I
u = 0.529899 + 1.277630I
a = 0.860939 + 0.572991I
b = 0.286354 1.123670I
3.87171 + 6.09769I 0
u = 0.529899 1.277630I
a = 0.860939 0.572991I
b = 0.286354 + 1.123670I
3.87171 6.09769I 0
u = 0.626802 + 1.233510I
a = 1.65574 0.32709I
b = 0.61948 + 1.44793I
14.2533 + 17.8825I 0
u = 0.626802 1.233510I
a = 1.65574 + 0.32709I
b = 0.61948 1.44793I
14.2533 17.8825I 0
u = 0.937303 + 1.056320I
a = 0.745739 0.529997I
b = 0.129943 1.063170I
6.02731 6.08825I 0
u = 0.937303 1.056320I
a = 0.745739 + 0.529997I
b = 0.129943 + 1.063170I
6.02731 + 6.08825I 0
15
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.619787 + 1.271060I
a = 1.255140 + 0.240539I
b = 0.338150 1.076830I
7.09795 6.75128I 0
u = 0.619787 1.271060I
a = 1.255140 0.240539I
b = 0.338150 + 1.076830I
7.09795 + 6.75128I 0
u = 0.22497 + 1.43098I
a = 0.168772 + 0.215068I
b = 0.33325 1.38805I
17.2212 7.5435I 0
u = 0.22497 1.43098I
a = 0.168772 0.215068I
b = 0.33325 + 1.38805I
17.2212 + 7.5435I 0
u = 0.53544 + 1.38996I
a = 1.048240 0.603541I
b = 0.501083 + 1.008100I
9.50876 7.77474I 0
u = 0.53544 1.38996I
a = 1.048240 + 0.603541I
b = 0.501083 1.008100I
9.50876 + 7.77474I 0
u = 0.204794 + 0.373554I
a = 2.33042 + 3.03774I
b = 0.895901 0.325763I
2.74347 + 0.07821I 6.22322 + 1.60330I
u = 0.204794 0.373554I
a = 2.33042 3.03774I
b = 0.895901 + 0.325763I
2.74347 0.07821I 6.22322 1.60330I
u = 0.307401
a = 3.48306
b = 0.351226
2.83082 3.89520
16
II. I
u
2
= h1.33 × 10
7
u
31
+ 5.59 × 10
7
u
30
+ · · · + 2.84 × 10
6
b + 1.93 × 10
7
, 9.66 ×
10
6
u
31
+ 3.52 × 10
7
u
30
+ · · · + 2.84 × 10
6
a + 3.41 × 10
7
, u
32
+ 3u
31
+ · · · + u + 1i
(i) Arc colorings
a
2
=
0
u
a
7
=
1
0
a
6
=
1
u
2
a
3
=
u
u
3
+ u
a
11
=
3.39966u
31
12.3907u
30
+ ··· 7.23773u 12.0066
4.66679u
31
19.6697u
30
+ ··· 3.96613u 6.77837
a
4
=
3.43239u
31
11.5894u
30
+ ··· 4.68622u 10.3560
4.58213u
31
17.6944u
30
+ ··· 11.9616u 11.0638
a
12
=
8.64001u
31
31.6062u
30
+ ··· 22.3751u 1.43627
5.26505u
31
+ 25.6840u
30
+ ··· + 13.8497u + 17.3110
a
1
=
u
3
u
5
+ u
3
+ u
a
10
=
1.26713u
31
+ 7.27904u
30
+ ··· 3.27160u 5.22825
4.66679u
31
19.6697u
30
+ ··· 3.96613u 6.77837
a
8
=
17.5481u
31
+ 41.3628u
30
+ ··· + 28.4769u 4.54830
2.23403u
31
+ 0.928813u
30
+ ··· + 3.61847u + 10.9127
a
5
=
10.4327u
31
40.9863u
30
+ ··· 28.0060u 15.3194
1.87433u
31
1.72077u
30
+ ··· 8.88520u + 1.36863
a
9
=
16.0792u
31
+ 42.9328u
30
+ ··· + 28.9923u + 1.17315
0.642914u
31
+ 4.74166u
30
+ ··· + 7.77463u + 7.26678
(ii) Obstruction class = 1
(iii) Cusp Shapes =
23519058
2842907
u
31
+
34049853
2842907
u
30
+ ··· +
21173213
2842907
u
11961054
2842907
17
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
32
17u
31
+ ··· 21u + 1
c
2
u
32
3u
31
+ ··· u + 1
c
3
, c
4
u
32
2u
31
+ ··· + 2u + 1
c
5
u
32
3u
31
+ ··· 5u + 1
c
6
u
32
+ 3u
31
+ ··· + u + 1
c
7
u
32
+ 5u
31
+ ··· + 5u + 1
c
8
u
32
2u
31
+ ··· 4u + 1
c
9
u
32
u
31
+ ··· + 7u + 1
c
10
u
32
5u
31
+ ··· 5u + 1
c
11
u
32
+ 2u
31
+ ··· 2u + 1
c
12
u
32
+ 2u
31
+ ··· + 4u + 1
18
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
32
+ 9y
31
+ ··· 3y + 1
c
2
, c
6
y
32
+ 17y
31
+ ··· + 21y + 1
c
3
, c
4
, c
11
y
32
38y
31
+ ··· 2y + 1
c
5
y
32
5y
31
+ ··· + 15y + 1
c
7
, c
10
y
32
+ 21y
31
+ ··· + 17y + 1
c
8
, c
12
y
32
+ 22y
31
+ ··· + 18y + 1
c
9
y
32
9y
31
+ ··· + 63y + 1
19
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.244355 + 1.001080I
a = 0.175786 0.119616I
b = 0.28700 + 1.57877I
14.0153 2.9014I 8.58329 + 4.37270I
u = 0.244355 1.001080I
a = 0.175786 + 0.119616I
b = 0.28700 1.57877I
14.0153 + 2.9014I 8.58329 4.37270I
u = 0.466507 + 0.848674I
a = 0.931897 + 0.897797I
b = 1.035000 0.058257I
1.57895 + 1.91755I 3.23512 + 3.06824I
u = 0.466507 0.848674I
a = 0.931897 0.897797I
b = 1.035000 + 0.058257I
1.57895 1.91755I 3.23512 3.06824I
u = 0.209610 + 0.904146I
a = 0.62713 + 1.54435I
b = 0.10983 1.67176I
13.60320 + 1.03060I 8.50803 + 2.16104I
u = 0.209610 0.904146I
a = 0.62713 1.54435I
b = 0.10983 + 1.67176I
13.60320 1.03060I 8.50803 2.16104I
u = 0.335770 + 1.018650I
a = 1.87447 1.41187I
b = 0.375270 + 1.145370I
6.10686 + 2.97201I 5.79820 3.74528I
u = 0.335770 1.018650I
a = 1.87447 + 1.41187I
b = 0.375270 1.145370I
6.10686 2.97201I 5.79820 + 3.74528I
u = 0.738935 + 0.551423I
a = 0.293292 0.794585I
b = 0.233844 0.798910I
0.41683 + 1.58308I 7.57916 3.54516I
u = 0.738935 0.551423I
a = 0.293292 + 0.794585I
b = 0.233844 + 0.798910I
0.41683 1.58308I 7.57916 + 3.54516I
20
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.063360 + 0.262371I
a = 0.709244 + 0.075805I
b = 0.330876 + 0.825193I
2.72342 1.51623I 2.90616 + 4.93151I
u = 1.063360 0.262371I
a = 0.709244 0.075805I
b = 0.330876 0.825193I
2.72342 + 1.51623I 2.90616 4.93151I
u = 0.272554 + 0.810542I
a = 0.94056 1.46434I
b = 0.445189 0.929042I
5.25626 0.40933I 6.95010 2.39281I
u = 0.272554 0.810542I
a = 0.94056 + 1.46434I
b = 0.445189 + 0.929042I
5.25626 + 0.40933I 6.95010 + 2.39281I
u = 0.480049 + 1.048670I
a = 0.952566 0.562126I
b = 1.121920 0.298361I
3.88311 3.23962I 1.19442 + 2.52336I
u = 0.480049 1.048670I
a = 0.952566 + 0.562126I
b = 1.121920 + 0.298361I
3.88311 + 3.23962I 1.19442 2.52336I
u = 0.521856 + 0.602990I
a = 0.87576 1.61499I
b = 0.675926 + 0.264624I
2.33282 0.83391I 0.98287 + 5.28157I
u = 0.521856 0.602990I
a = 0.87576 + 1.61499I
b = 0.675926 0.264624I
2.33282 + 0.83391I 0.98287 5.28157I
u = 0.720595 + 1.012900I
a = 0.519796 + 0.434107I
b = 0.012893 + 0.731422I
1.73523 + 4.05892I 11.07407 2.72386I
u = 0.720595 1.012900I
a = 0.519796 0.434107I
b = 0.012893 0.731422I
1.73523 4.05892I 11.07407 + 2.72386I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.404463 + 1.178790I
a = 1.87923 + 0.69754I
b = 0.443975 0.781421I
10.82960 6.50752I 9.69732 + 6.51911I
u = 0.404463 1.178790I
a = 1.87923 0.69754I
b = 0.443975 + 0.781421I
10.82960 + 6.50752I 9.69732 6.51911I
u = 0.469457 + 1.157090I
a = 0.859440 + 0.796950I
b = 0.219767 1.254670I
4.20018 + 4.91022I 6.82400 3.99429I
u = 0.469457 1.157090I
a = 0.859440 0.796950I
b = 0.219767 + 1.254670I
4.20018 4.91022I 6.82400 + 3.99429I
u = 0.240239 + 0.657275I
a = 0.31562 + 3.69610I
b = 0.365654 + 0.540621I
8.66222 + 3.74835I 2.43697 0.42632I
u = 0.240239 0.657275I
a = 0.31562 3.69610I
b = 0.365654 0.540621I
8.66222 3.74835I 2.43697 + 0.42632I
u = 0.866303 + 1.047850I
a = 0.015620 + 0.269050I
b = 0.054903 0.629002I
4.68720 5.21266I 1.37626 + 6.81309I
u = 0.866303 1.047850I
a = 0.015620 0.269050I
b = 0.054903 + 0.629002I
4.68720 + 5.21266I 1.37626 6.81309I
u = 0.63652 + 1.33642I
a = 1.100650 0.306996I
b = 0.360587 + 1.134080I
7.23142 7.49462I 7.19409 + 10.36504I
u = 0.63652 1.33642I
a = 1.100650 + 0.306996I
b = 0.360587 1.134080I
7.23142 + 7.49462I 7.19409 10.36504I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.162934 + 0.435737I
a = 0.625356 1.074570I
b = 0.506984 + 1.007970I
1.43186 1.52438I 0.47227 + 4.77149I
u = 0.162934 0.435737I
a = 0.625356 + 1.074570I
b = 0.506984 1.007970I
1.43186 + 1.52438I 0.47227 4.77149I
23
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
32
17u
31
+ ··· 21u + 1)(u
119
+ 60u
118
+ ··· 4929u 361)
c
2
(u
32
3u
31
+ ··· u + 1)(u
119
+ 30u
117
+ ··· 45u + 19)
c
3
, c
4
(u
32
2u
31
+ ··· + 2u + 1)(u
119
+ 3u
118
+ ··· 236u + 29)
c
5
(u
32
3u
31
+ ··· 5u + 1)(u
119
8u
118
+ ··· + 84246u 6676)
c
6
(u
32
+ 3u
31
+ ··· + u + 1)(u
119
+ 30u
117
+ ··· 45u + 19)
c
7
(u
32
+ 5u
31
+ ··· + 5u + 1)(u
119
+ 6u
118
+ ··· 1800u 200)
c
8
(u
32
2u
31
+ ··· 4u + 1)(u
119
3u
118
+ ··· 1224u + 2727)
c
9
(u
32
u
31
+ ··· + 7u + 1)
· (u
119
+ 2u
118
+ ··· 715329093u 124700713)
c
10
(u
32
5u
31
+ ··· 5u + 1)(u
119
+ 6u
118
+ ··· 1800u 200)
c
11
(u
32
+ 2u
31
+ ··· 2u + 1)(u
119
+ 3u
118
+ ··· 236u + 29)
c
12
(u
32
+ 2u
31
+ ··· + 4u + 1)(u
119
3u
118
+ ··· 1224u + 2727)
24
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
32
+ 9y
31
+ ··· 3y + 1)(y
119
+ 12y
118
+ ··· + 9244951y 130321)
c
2
, c
6
(y
32
+ 17y
31
+ ··· + 21y + 1)(y
119
+ 60y
118
+ ··· 4929y 361)
c
3
, c
4
, c
11
(y
32
38y
31
+ ··· 2y + 1)(y
119
131y
118
+ ··· 91218y 841)
c
5
(y
32
5y
31
+ ··· + 15y + 1)
· (y
119
30y
118
+ ··· + 2009862604y 44568976)
c
7
, c
10
(y
32
+ 21y
31
+ ··· + 17y + 1)
· (y
119
+ 84y
118
+ ··· 1890400y 40000)
c
8
, c
12
(y
32
+ 22y
31
+ ··· + 18y + 1)
· (y
119
+ 89y
118
+ ··· 366139602y 7436529)
c
9
(y
32
9y
31
+ ··· + 63y + 1)
· (y
119
62y
118
+ ··· + 559579641828065865y 15550267822708369)
25