12n
0854
(K12n
0854
)
A knot diagram
1
Linearized knot diagam
4 7 9 11 10 3 11 2 6 1 7 5
Solving Sequence
2,7 3,11
8 9 4 1 6 10 5 12
c
2
c
7
c
8
c
3
c
1
c
6
c
9
c
5
c
12
c
4
, c
10
, c
11
Ideals for irreducible components
2
of X
par
I
u
1
= h8.39823 × 10
498
u
108
+ 2.41008 × 10
499
u
107
+ ··· + 7.17600 × 10
500
b 4.55608 × 10
504
,
7.81238 × 10
505
u
108
+ 1.77615 × 10
506
u
107
+ ··· + 2.83788 × 10
507
a 3.55368 × 10
511
,
u
109
+ 36u
107
+ ··· 1154036u 171943i
I
u
2
= h2.24797 × 10
42
u
37
+ 1.61524 × 10
42
u
36
+ ··· + 1.01090 × 10
43
b 7.15951 × 10
42
,
3.29889 × 10
42
u
37
5.18067 × 10
42
u
36
+ ··· + 7.07629 × 10
43
a + 2.71417 × 10
43
, u
38
+ u
37
+ ··· + 8u + 7i
* 2 irreducible components of dim
C
= 0, with total 147 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
= h8.40 × 10
498
u
108
+ 2.41 × 10
499
u
107
+ · · · + 7.18 × 10
500
b 4.56 ×
10
504
, 7.81 × 10
505
u
108
+ 1.78 × 10
506
u
107
+ · · · + 2.84 × 10
507
a 3.55 ×
10
511
, u
109
+ 36u
107
+ · · · 1154036u 171943i
(i) Arc colorings
a
2
=
1
0
a
7
=
0
u
a
3
=
1
u
2
a
11
=
0.0275289u
108
0.0625870u
107
+ ··· + 82142.5u + 12522.3
0.0117032u
108
0.0335853u
107
+ ··· + 41138.1u + 6349.05
a
8
=
0.0285405u
108
+ 0.0104270u
107
+ ··· + 11834.6u + 1173.41
0.00263481u
108
+ 0.0158836u
107
+ ··· 18487.5u 2914.67
a
9
=
0.0311753u
108
0.00545660u
107
+ ··· + 30322.1u + 4088.08
0.00263481u
108
+ 0.0158836u
107
+ ··· 18487.5u 2914.67
a
4
=
0.0169095u
108
0.131078u
107
+ ··· + 144204.u + 22938.7
0.0147313u
108
+ 0.0146839u
107
+ ··· 7112.82u 1533.36
a
1
=
0.0444190u
108
0.0696387u
107
+ ··· + 34828.4u + 6920.06
0.0314214u
108
+ 0.0150164u
107
+ ··· + 9958.32u + 770.043
a
6
=
u
u
3
+ u
a
10
=
0.0124119u
108
+ 0.0237295u
107
+ ··· 13201.6u 2454.64
0.0143619u
108
+ 0.0345235u
107
+ ··· 25103.0u 4439.04
a
5
=
0.0342753u
108
0.0523315u
107
+ ··· + 77734.8u + 11680.1
0.00772236u
108
+ 0.0156642u
107
+ ··· 10128.1u 1906.46
a
12
=
0.0275289u
108
+ 0.0625870u
107
+ ··· 82142.5u 12522.3
0.0520561u
108
+ 0.00229324u
107
+ ··· + 35822.9u + 4412.34
(ii) Obstruction class = 1
(iii) Cusp Shapes = 0.216975u
108
0.110555u
107
+ ··· 47146.8u 2137.91
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
109
9u
108
+ ··· + 76u + 717
c
2
, c
6
u
109
+ 36u
107
+ ··· 1154036u + 171943
c
3
u
109
+ u
108
+ ··· 284399u + 14941
c
4
u
109
2u
108
+ ··· + 17549u + 277
c
5
, c
9
u
109
+ 46u
107
+ ··· 4285172u + 1094877
c
7
, c
11
u
109
u
108
+ ··· 10183u + 2217
c
8
u
109
5u
108
+ ··· + 9551892u + 3400151
c
10
u
109
+ 3u
108
+ ··· + 652u 23
c
12
u
109
3u
108
+ ··· + 3441u + 1219
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
109
17y
108
+ ··· + 4144300y 514089
c
2
, c
6
y
109
+ 72y
108
+ ··· 612883806196y 29564395249
c
3
y
109
+ 63y
108
+ ··· + 3169749553y 223233481
c
4
y
109
+ 18y
108
+ ··· + 99463961y 76729
c
5
, c
9
y
109
+ 92y
108
+ ··· 34486733431904y 1198755645129
c
7
, c
11
y
109
59y
108
+ ··· + 32452411y 4915089
c
8
y
109
15y
108
+ ··· + 809760664993586y 11561026822801
c
10
y
109
37y
108
+ ··· + 624376y 529
c
12
y
109
27y
108
+ ··· 202910749y 1485961
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.303524 + 0.959372I
a = 1.36417 0.74888I
b = 0.312249 + 0.029977I
9.26189 + 2.26190I 0
u = 0.303524 0.959372I
a = 1.36417 + 0.74888I
b = 0.312249 0.029977I
9.26189 2.26190I 0
u = 0.889230 + 0.439652I
a = 1.15134 + 0.89416I
b = 1.57467 0.00752I
4.81066 + 0.03170I 0
u = 0.889230 0.439652I
a = 1.15134 0.89416I
b = 1.57467 + 0.00752I
4.81066 0.03170I 0
u = 0.149684 + 0.997733I
a = 0.847808 + 0.305336I
b = 0.437320 + 0.557102I
1.51309 1.25303I 0
u = 0.149684 0.997733I
a = 0.847808 0.305336I
b = 0.437320 0.557102I
1.51309 + 1.25303I 0
u = 0.273044 + 0.972250I
a = 1.255330 0.402290I
b = 0.382982 0.444639I
2.33195 + 4.96654I 0
u = 0.273044 0.972250I
a = 1.255330 + 0.402290I
b = 0.382982 + 0.444639I
2.33195 4.96654I 0
u = 0.078092 + 0.981755I
a = 0.372072 1.275790I
b = 1.50482 + 0.55259I
3.66084 0.32648I 0
u = 0.078092 0.981755I
a = 0.372072 + 1.275790I
b = 1.50482 0.55259I
3.66084 + 0.32648I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.875395 + 0.415021I
a = 1.13573 0.84326I
b = 1.63212 0.10082I
4.74544 6.36143I 0
u = 0.875395 0.415021I
a = 1.13573 + 0.84326I
b = 1.63212 + 0.10082I
4.74544 + 6.36143I 0
u = 0.277502 + 0.994760I
a = 1.42293 + 0.55061I
b = 0.621269 0.047157I
9.38262 + 0.15225I 0
u = 0.277502 0.994760I
a = 1.42293 0.55061I
b = 0.621269 + 0.047157I
9.38262 0.15225I 0
u = 0.109733 + 1.027060I
a = 0.210190 + 0.905325I
b = 3.37504 + 1.38734I
1.80139 0.26427I 0
u = 0.109733 1.027060I
a = 0.210190 0.905325I
b = 3.37504 1.38734I
1.80139 + 0.26427I 0
u = 0.972023 + 0.374394I
a = 0.955302 0.439978I
b = 1.48399 0.17642I
2.12306 3.00392I 0
u = 0.972023 0.374394I
a = 0.955302 + 0.439978I
b = 1.48399 + 0.17642I
2.12306 + 3.00392I 0
u = 0.672917 + 0.679097I
a = 0.92675 + 1.17716I
b = 0.842169 0.232879I
3.66466 + 0.35770I 0
u = 0.672917 0.679097I
a = 0.92675 1.17716I
b = 0.842169 + 0.232879I
3.66466 0.35770I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.200193 + 1.062610I
a = 0.208302 1.108320I
b = 1.10729 + 1.11583I
1.32352 3.73779I 0
u = 0.200193 1.062610I
a = 0.208302 + 1.108320I
b = 1.10729 1.11583I
1.32352 + 3.73779I 0
u = 0.150923 + 0.900392I
a = 0.229702 + 1.212150I
b = 0.91905 2.00806I
0.664463 0.337928I 0
u = 0.150923 0.900392I
a = 0.229702 1.212150I
b = 0.91905 + 2.00806I
0.664463 + 0.337928I 0
u = 0.457929 + 0.996062I
a = 0.604808 0.784299I
b = 0.028118 + 0.710849I
7.20217 1.09591I 0
u = 0.457929 0.996062I
a = 0.604808 + 0.784299I
b = 0.028118 0.710849I
7.20217 + 1.09591I 0
u = 0.393709 + 1.042330I
a = 0.185641 0.420821I
b = 0.77813 + 3.00794I
9.01390 6.41979I 0
u = 0.393709 1.042330I
a = 0.185641 + 0.420821I
b = 0.77813 3.00794I
9.01390 + 6.41979I 0
u = 0.283158 + 1.089750I
a = 0.889536 + 0.836349I
b = 1.62195 0.25881I
1.09610 + 3.53279I 0
u = 0.283158 1.089750I
a = 0.889536 0.836349I
b = 1.62195 + 0.25881I
1.09610 3.53279I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.309081 + 1.091610I
a = 0.949969 + 0.037189I
b = 1.035930 0.530135I
7.76345 + 4.27063I 0
u = 0.309081 1.091610I
a = 0.949969 0.037189I
b = 1.035930 + 0.530135I
7.76345 4.27063I 0
u = 0.270378 + 0.811928I
a = 0.846337 + 0.647452I
b = 1.39858 + 0.34869I
0.72336 1.75177I 0
u = 0.270378 0.811928I
a = 0.846337 0.647452I
b = 1.39858 0.34869I
0.72336 + 1.75177I 0
u = 0.025046 + 0.852780I
a = 0.88759 1.19182I
b = 1.292320 0.093716I
0.15411 + 2.70420I 0
u = 0.025046 0.852780I
a = 0.88759 + 1.19182I
b = 1.292320 + 0.093716I
0.15411 2.70420I 0
u = 0.280210 + 1.112280I
a = 1.040390 0.799126I
b = 1.46813 + 0.18970I
0.21645 + 9.63542I 0
u = 0.280210 1.112280I
a = 1.040390 + 0.799126I
b = 1.46813 0.18970I
0.21645 9.63542I 0
u = 0.504827 + 1.074060I
a = 0.200935 + 0.329041I
b = 0.04678 2.92414I
8.96311 + 2.52979I 0
u = 0.504827 1.074060I
a = 0.200935 0.329041I
b = 0.04678 + 2.92414I
8.96311 2.52979I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.663656 + 0.437634I
a = 0.199853 0.278763I
b = 0.348882 0.188836I
4.38372 + 2.19355I 0
u = 0.663656 0.437634I
a = 0.199853 + 0.278763I
b = 0.348882 + 0.188836I
4.38372 2.19355I 0
u = 0.316796 + 0.713571I
a = 1.17918 + 1.00604I
b = 0.881567 + 0.454717I
1.43940 2.47886I 0
u = 0.316796 0.713571I
a = 1.17918 1.00604I
b = 0.881567 0.454717I
1.43940 + 2.47886I 0
u = 1.067020 + 0.604673I
a = 0.962905 0.253459I
b = 1.74985 + 0.14641I
4.88585 2.37007I 0
u = 1.067020 0.604673I
a = 0.962905 + 0.253459I
b = 1.74985 0.14641I
4.88585 + 2.37007I 0
u = 0.772527 + 0.020882I
a = 1.72282 0.07303I
b = 1.51637 + 0.35853I
0.31062 1.51311I 0
u = 0.772527 0.020882I
a = 1.72282 + 0.07303I
b = 1.51637 0.35853I
0.31062 + 1.51311I 0
u = 0.775022 + 0.956827I
a = 1.084560 + 0.471628I
b = 1.47152 0.24042I
3.03726 5.87728I 0
u = 0.775022 0.956827I
a = 1.084560 0.471628I
b = 1.47152 + 0.24042I
3.03726 + 5.87728I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.151010 + 0.458194I
a = 0.536389 1.170770I
b = 0.746546 0.091402I
3.91226 + 3.76178I 0
u = 1.151010 0.458194I
a = 0.536389 + 1.170770I
b = 0.746546 + 0.091402I
3.91226 3.76178I 0
u = 0.506061 + 1.146190I
a = 0.850584 0.878371I
b = 1.83639 + 0.94288I
2.40270 + 11.40680I 0
u = 0.506061 1.146190I
a = 0.850584 + 0.878371I
b = 1.83639 0.94288I
2.40270 11.40680I 0
u = 0.470228 + 1.170700I
a = 0.844448 + 0.887504I
b = 1.89051 0.76346I
2.39140 + 4.86267I 0
u = 0.470228 1.170700I
a = 0.844448 0.887504I
b = 1.89051 + 0.76346I
2.39140 4.86267I 0
u = 0.020367 + 1.264000I
a = 0.158509 + 0.620147I
b = 0.042012 + 1.371470I
2.18378 0.67613I 0
u = 0.020367 1.264000I
a = 0.158509 0.620147I
b = 0.042012 1.371470I
2.18378 + 0.67613I 0
u = 0.788510 + 1.020090I
a = 0.734102 0.811935I
b = 1.32026 + 0.51630I
3.45606 4.09090I 0
u = 0.788510 1.020090I
a = 0.734102 + 0.811935I
b = 1.32026 0.51630I
3.45606 + 4.09090I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.618633 + 1.210490I
a = 0.760577 0.727691I
b = 1.46450 + 0.99172I
4.76534 + 8.82470I 0
u = 0.618633 1.210490I
a = 0.760577 + 0.727691I
b = 1.46450 0.99172I
4.76534 8.82470I 0
u = 0.372480 + 0.504941I
a = 0.52257 2.39656I
b = 0.651137 + 0.014558I
2.14254 6.94960I 0
u = 0.372480 0.504941I
a = 0.52257 + 2.39656I
b = 0.651137 0.014558I
2.14254 + 6.94960I 0
u = 0.102497 + 0.608643I
a = 0.942242 0.035552I
b = 0.411916 + 0.555250I
1.32344 1.30831I 0
u = 0.102497 0.608643I
a = 0.942242 + 0.035552I
b = 0.411916 0.555250I
1.32344 + 1.30831I 0
u = 1.045930 + 0.933846I
a = 1.036920 0.728819I
b = 1.46515 + 0.17404I
3.15443 3.77330I 0
u = 1.045930 0.933846I
a = 1.036920 + 0.728819I
b = 1.46515 0.17404I
3.15443 + 3.77330I 0
u = 0.664145 + 1.235810I
a = 0.809078 + 0.838757I
b = 0.491161 + 0.267957I
6.50620 10.20970I 0
u = 0.664145 1.235810I
a = 0.809078 0.838757I
b = 0.491161 0.267957I
6.50620 + 10.20970I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.88842 + 1.11687I
a = 0.660668 0.449424I
b = 1.34661 + 0.78473I
4.82997 + 3.53104I 0
u = 0.88842 1.11687I
a = 0.660668 + 0.449424I
b = 1.34661 0.78473I
4.82997 3.53104I 0
u = 0.53942 + 1.32318I
a = 0.613896 + 0.861401I
b = 1.44054 0.84210I
3.67771 + 6.65625I 0
u = 0.53942 1.32318I
a = 0.613896 0.861401I
b = 1.44054 + 0.84210I
3.67771 6.65625I 0
u = 0.20548 + 1.41936I
a = 0.031238 0.300635I
b = 0.991342 + 0.167067I
8.23882 + 0.68980I 0
u = 0.20548 1.41936I
a = 0.031238 + 0.300635I
b = 0.991342 0.167067I
8.23882 0.68980I 0
u = 0.350766 + 0.417010I
a = 0.95202 + 2.37027I
b = 0.728670 + 0.008261I
3.08065 0.78537I 5.08726 1.72654I
u = 0.350766 0.417010I
a = 0.95202 2.37027I
b = 0.728670 0.008261I
3.08065 + 0.78537I 5.08726 + 1.72654I
u = 0.507312 + 0.190369I
a = 0.497230 + 1.256420I
b = 0.259100 0.104192I
0.959823 0.136425I 10.15518 + 0.60041I
u = 0.507312 0.190369I
a = 0.497230 1.256420I
b = 0.259100 + 0.104192I
0.959823 + 0.136425I 10.15518 0.60041I
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.45615 + 0.10590I
a = 1.009980 + 0.472889I
b = 1.65752 + 0.07813I
1.12357 + 11.21470I 0
u = 1.45615 0.10590I
a = 1.009980 0.472889I
b = 1.65752 0.07813I
1.12357 11.21470I 0
u = 0.41330 + 1.40396I
a = 0.457416 0.549437I
b = 0.352219 0.099185I
3.01820 3.47797I 0
u = 0.41330 1.40396I
a = 0.457416 + 0.549437I
b = 0.352219 + 0.099185I
3.01820 + 3.47797I 0
u = 0.445441 + 0.268888I
a = 0.460371 0.878088I
b = 0.276021 0.887551I
0.07159 + 3.78659I 6.00000 9.96814I
u = 0.445441 0.268888I
a = 0.460371 + 0.878088I
b = 0.276021 + 0.887551I
0.07159 3.78659I 6.00000 + 9.96814I
u = 0.22537 + 1.46787I
a = 0.1091890 0.0330745I
b = 0.264833 0.166665I
10.50910 + 5.39495I 0
u = 0.22537 1.46787I
a = 0.1091890 + 0.0330745I
b = 0.264833 + 0.166665I
10.50910 5.39495I 0
u = 0.25943 + 1.48423I
a = 0.066568 + 0.250365I
b = 0.419717 0.874249I
5.96819 + 6.25116I 0
u = 0.25943 1.48423I
a = 0.066568 0.250365I
b = 0.419717 + 0.874249I
5.96819 6.25116I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.16176 + 1.53104I
a = 0.224469 0.835935I
b = 0.749578 0.769398I
5.53575 7.10544I 0
u = 0.16176 1.53104I
a = 0.224469 + 0.835935I
b = 0.749578 + 0.769398I
5.53575 + 7.10544I 0
u = 0.13989 + 1.53939I
a = 0.101372 0.483431I
b = 0.371955 + 0.056625I
3.34619 3.46550I 0
u = 0.13989 1.53939I
a = 0.101372 + 0.483431I
b = 0.371955 0.056625I
3.34619 + 3.46550I 0
u = 1.54672 + 0.08791I
a = 0.754447 0.513976I
b = 1.56397 + 0.14143I
3.36494 + 3.10866I 0
u = 1.54672 0.08791I
a = 0.754447 + 0.513976I
b = 1.56397 0.14143I
3.36494 3.10866I 0
u = 0.66558 + 1.45280I
a = 0.841722 + 0.611308I
b = 1.94012 0.73352I
3.2244 18.4927I 0
u = 0.66558 1.45280I
a = 0.841722 0.611308I
b = 1.94012 + 0.73352I
3.2244 + 18.4927I 0
u = 0.63126 + 1.49413I
a = 0.802241 0.511519I
b = 2.06045 + 0.76604I
1.40447 10.49290I 0
u = 0.63126 1.49413I
a = 0.802241 + 0.511519I
b = 2.06045 0.76604I
1.40447 + 10.49290I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.73090 + 1.46637I
a = 0.471206 + 0.643703I
b = 1.37964 0.93100I
2.13985 + 7.50654I 0
u = 0.73090 1.46637I
a = 0.471206 0.643703I
b = 1.37964 + 0.93100I
2.13985 7.50654I 0
u = 0.354268
a = 1.36730
b = 0.223063
0.846043 12.6520
u = 1.62340 + 0.43079I
a = 0.635269 + 0.076684I
b = 1.97733 0.04868I
1.82525 + 0.68177I 0
u = 1.62340 0.43079I
a = 0.635269 0.076684I
b = 1.97733 + 0.04868I
1.82525 0.68177I 0
u = 0.16780 + 1.77854I
a = 0.929365 0.124459I
b = 2.65053 0.11583I
12.18050 1.51264I 0
u = 0.16780 1.77854I
a = 0.929365 + 0.124459I
b = 2.65053 + 0.11583I
12.18050 + 1.51264I 0
u = 0.37756 + 1.78772I
a = 0.023256 + 0.728223I
b = 0.349684 0.122526I
5.37081 + 3.69453I 0
u = 0.37756 1.78772I
a = 0.023256 0.728223I
b = 0.349684 + 0.122526I
5.37081 3.69453I 0
15
II.
I
u
2
= h2.25×10
42
u
37
+1.62×10
42
u
36
+· · ·+1.01×10
43
b7.16×10
42
, 3.30×
10
42
u
37
5.18×10
42
u
36
+· · ·+7.08×10
43
a+2.71×10
43
, u
38
+u
37
+· · ·+8u+7i
(i) Arc colorings
a
2
=
1
0
a
7
=
0
u
a
3
=
1
u
2
a
11
=
0.0466190u
37
+ 0.0732116u
36
+ ··· + 5.76664u 0.383558
0.222373u
37
0.159782u
36
+ ··· 2.93637u + 0.708232
a
8
=
0.151462u
37
+ 0.140190u
36
+ ··· + 4.91559u + 0.874356
0.157642u
37
0.101078u
36
+ ··· 2.07834u + 0.879533
a
9
=
0.309104u
37
+ 0.241267u
36
+ ··· + 6.99393u 0.00517696
0.157642u
37
0.101078u
36
+ ··· 2.07834u + 0.879533
a
4
=
0.247100u
37
+ 0.287249u
36
+ ··· + 6.34348u + 2.52563
0.0695401u
37
+ 0.0646430u
36
+ ··· 1.50387u + 0.197133
a
1
=
0.102787u
37
0.115542u
36
+ ··· + 0.910959u 1.00445
0.0496101u
37
0.0749171u
36
+ ··· + 0.366300u 0.222920
a
6
=
u
u
3
+ u
a
10
=
0.150101u
37
+ 0.132885u
36
+ ··· + 4.99158u + 0.375243
0.168318u
37
0.123865u
36
+ ··· 3.37263u + 0.905608
a
5
=
0.172576u
37
0.167587u
36
+ ··· 5.60098u + 0.757942
0.194834u
37
+ 0.440293u
36
+ ··· + 5.87802u + 0.806992
a
12
=
0.0466190u
37
+ 0.0732116u
36
+ ··· + 5.76664u 0.383558
0.221349u
37
0.154808u
36
+ ··· 3.47544u + 0.522084
(ii) Obstruction class = 1
(iii) Cusp Shapes = 0.0878830u
37
+ 0.0469208u
36
+ ··· + 15.7881u 3.18550
16
(iv) u-Polynomials at the component
17
Crossings u-Polynomials at each crossing
c
1
u
38
4u
37
+ ··· 20u + 19
c
2
u
38
+ u
37
+ ··· + 8u + 7
c
3
u
38
+ 14u
36
+ ··· + 7u + 1
c
4
u
38
+ 3u
37
+ ··· + 9u + 1
c
5
u
38
+ 3u
37
+ ··· 4u + 1
c
6
u
38
u
37
+ ··· 8u + 7
c
7
u
38
+ 2u
37
+ ··· + u + 1
c
8
u
38
4u
37
+ ··· + 168u + 17
c
9
u
38
3u
37
+ ··· + 4u + 1
c
10
u
38
+ 12u
37
+ ··· + 12u + 1
c
11
u
38
2u
37
+ ··· u + 1
c
12
u
38
15u
36
+ ··· 115u + 25
18
19
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
38
8y
37
+ ··· + 5908y + 361
c
2
, c
6
y
38
+ 29y
37
+ ··· + 608y + 49
c
3
y
38
+ 28y
37
+ ··· + 7y + 1
c
4
y
38
5y
37
+ ··· 29y + 1
c
5
, c
9
y
38
+ 41y
37
+ ··· 52y + 1
c
7
, c
11
y
38
6y
37
+ ··· + 21y + 1
c
8
y
38
+ 10y
37
+ ··· + 95094y + 289
c
10
y
38
20y
37
+ ··· 32y + 1
c
12
y
38
30y
37
+ ··· + 7725y + 625
20
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.133322 + 1.000280I
a = 0.312853 + 0.940337I
b = 2.71045 + 0.54171I
1.79670 0.37443I 8.2124 + 18.2229I
u = 0.133322 1.000280I
a = 0.312853 0.940337I
b = 2.71045 0.54171I
1.79670 + 0.37443I 8.2124 18.2229I
u = 0.245111 + 0.908215I
a = 1.52859 0.58284I
b = 0.527612 + 0.228137I
9.11911 + 1.85542I 1.99342 + 3.73857I
u = 0.245111 0.908215I
a = 1.52859 + 0.58284I
b = 0.527612 0.228137I
9.11911 1.85542I 1.99342 3.73857I
u = 1.097730 + 0.266092I
a = 1.103780 0.223861I
b = 1.47602 + 0.00845I
4.00657 2.26250I 7.52626 + 0.76626I
u = 1.097730 0.266092I
a = 1.103780 + 0.223861I
b = 1.47602 0.00845I
4.00657 + 2.26250I 7.52626 0.76626I
u = 0.223827 + 1.169640I
a = 0.997099 + 0.335187I
b = 0.249086 0.244223I
10.14710 + 0.09421I 8.04376 + 1.13836I
u = 0.223827 1.169640I
a = 0.997099 0.335187I
b = 0.249086 + 0.244223I
10.14710 0.09421I 8.04376 1.13836I
u = 0.350442 + 1.173200I
a = 0.344584 + 0.103672I
b = 0.85103 2.54415I
9.57968 6.39112I 7.27778 + 5.20209I
u = 0.350442 1.173200I
a = 0.344584 0.103672I
b = 0.85103 + 2.54415I
9.57968 + 6.39112I 7.27778 5.20209I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.000935 + 1.237830I
a = 0.189569 + 0.656562I
b = 0.76857 + 1.72115I
2.39078 + 0.01786I 2.73638 + 0.66752I
u = 0.000935 1.237830I
a = 0.189569 0.656562I
b = 0.76857 1.72115I
2.39078 0.01786I 2.73638 0.66752I
u = 0.439936 + 1.183170I
a = 0.229457 0.292308I
b = 0.14888 + 2.60320I
9.35163 + 2.81595I 6.96988 6.30176I
u = 0.439936 1.183170I
a = 0.229457 + 0.292308I
b = 0.14888 2.60320I
9.35163 2.81595I 6.96988 + 6.30176I
u = 0.845263 + 0.970892I
a = 0.985025 + 0.700226I
b = 1.55819 0.30361I
3.93665 3.25428I 10.43858 + 1.28254I
u = 0.845263 0.970892I
a = 0.985025 0.700226I
b = 1.55819 + 0.30361I
3.93665 + 3.25428I 10.43858 1.28254I
u = 0.521987 + 0.434269I
a = 2.20601 0.47071I
b = 1.260940 + 0.277322I
2.29503 8.27917I 4.34310 + 7.45137I
u = 0.521987 0.434269I
a = 2.20601 + 0.47071I
b = 1.260940 0.277322I
2.29503 + 8.27917I 4.34310 7.45137I
u = 0.033614 + 1.327820I
a = 0.415387 + 0.107961I
b = 0.290433 0.722460I
4.38778 3.91744I 1.99542 + 5.18399I
u = 0.033614 1.327820I
a = 0.415387 0.107961I
b = 0.290433 + 0.722460I
4.38778 + 3.91744I 1.99542 5.18399I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.374631 + 0.548517I
a = 1.36732 + 1.25692I
b = 0.691859 + 0.569327I
1.25895 + 2.87882I 6.56035 10.72828I
u = 0.374631 0.548517I
a = 1.36732 1.25692I
b = 0.691859 0.569327I
1.25895 2.87882I 6.56035 + 10.72828I
u = 0.650211 + 0.024846I
a = 0.142264 1.380460I
b = 0.766497 + 0.042011I
5.55351 2.57256I 0.92510 + 3.42731I
u = 0.650211 0.024846I
a = 0.142264 + 1.380460I
b = 0.766497 0.042011I
5.55351 + 2.57256I 0.92510 3.42731I
u = 0.21302 + 1.44313I
a = 0.305475 0.046954I
b = 0.00464002 0.01008770I
10.65010 + 5.51871I 15.9371 17.8210I
u = 0.21302 1.44313I
a = 0.305475 + 0.046954I
b = 0.00464002 + 0.01008770I
10.65010 5.51871I 15.9371 + 17.8210I
u = 0.58097 + 1.34775I
a = 0.538939 0.759566I
b = 1.39280 + 0.96918I
3.17519 + 7.31849I 2.37996 8.30018I
u = 0.58097 1.34775I
a = 0.538939 + 0.759566I
b = 1.39280 0.96918I
3.17519 7.31849I 2.37996 + 8.30018I
u = 0.438561 + 0.238927I
a = 2.39509 0.31734I
b = 1.301230 0.402596I
1.08236 2.66340I 8.88648 + 4.78970I
u = 0.438561 0.238927I
a = 2.39509 + 0.31734I
b = 1.301230 + 0.402596I
1.08236 + 2.66340I 8.88648 4.78970I
23
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.54761 + 0.19640I
a = 0.765393 + 0.026355I
b = 1.94947 + 0.13472I
1.96576 + 1.19069I 0. 7.48502I
u = 1.54761 0.19640I
a = 0.765393 0.026355I
b = 1.94947 0.13472I
1.96576 1.19069I 0. + 7.48502I
u = 0.058398 + 0.432391I
a = 0.07424 + 2.10314I
b = 0.726160 1.007150I
0.026476 0.475980I 2.94754 + 5.05440I
u = 0.058398 0.432391I
a = 0.07424 2.10314I
b = 0.726160 + 1.007150I
0.026476 + 0.475980I 2.94754 5.05440I
u = 0.26238 + 1.66704I
a = 0.137991 0.684851I
b = 0.503128 + 0.036319I
4.34368 + 6.09031I 0
u = 0.26238 1.66704I
a = 0.137991 + 0.684851I
b = 0.503128 0.036319I
4.34368 6.09031I 0
u = 0.19271 + 1.74669I
a = 0.904154 0.119013I
b = 2.68460 0.15180I
12.29080 + 1.46245I 0
u = 0.19271 1.74669I
a = 0.904154 + 0.119013I
b = 2.68460 + 0.15180I
12.29080 1.46245I 0
24
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
38
4u
37
+ ··· 20u + 19)(u
109
9u
108
+ ··· + 76u + 717)
c
2
(u
38
+ u
37
+ ··· + 8u + 7)(u
109
+ 36u
107
+ ··· 1154036u + 171943)
c
3
(u
38
+ 14u
36
+ ··· + 7u + 1)(u
109
+ u
108
+ ··· 284399u + 14941)
c
4
(u
38
+ 3u
37
+ ··· + 9u + 1)(u
109
2u
108
+ ··· + 17549u + 277)
c
5
(u
38
+ 3u
37
+ ··· 4u + 1)
· (u
109
+ 46u
107
+ ··· 4285172u + 1094877)
c
6
(u
38
u
37
+ ··· 8u + 7)(u
109
+ 36u
107
+ ··· 1154036u + 171943)
c
7
(u
38
+ 2u
37
+ ··· + u + 1)(u
109
u
108
+ ··· 10183u + 2217)
c
8
(u
38
4u
37
+ ··· + 168u + 17)
· (u
109
5u
108
+ ··· + 9551892u + 3400151)
c
9
(u
38
3u
37
+ ··· + 4u + 1)
· (u
109
+ 46u
107
+ ··· 4285172u + 1094877)
c
10
(u
38
+ 12u
37
+ ··· + 12u + 1)(u
109
+ 3u
108
+ ··· + 652u 23)
c
11
(u
38
2u
37
+ ··· u + 1)(u
109
u
108
+ ··· 10183u + 2217)
c
12
(u
38
15u
36
+ ··· 115u + 25)(u
109
3u
108
+ ··· + 3441u + 1219)
25
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
38
8y
37
+ ··· + 5908y + 361)
· (y
109
17y
108
+ ··· + 4144300y 514089)
c
2
, c
6
(y
38
+ 29y
37
+ ··· + 608y + 49)
· (y
109
+ 72y
108
+ ··· 612883806196y 29564395249)
c
3
(y
38
+ 28y
37
+ ··· + 7y + 1)
· (y
109
+ 63y
108
+ ··· + 3169749553y 223233481)
c
4
(y
38
5y
37
+ ··· 29y + 1)
· (y
109
+ 18y
108
+ ··· + 99463961y 76729)
c
5
, c
9
(y
38
+ 41y
37
+ ··· 52y + 1)
· (y
109
+ 92y
108
+ ··· 34486733431904y 1198755645129)
c
7
, c
11
(y
38
6y
37
+ ··· + 21y + 1)
· (y
109
59y
108
+ ··· + 32452411y 4915089)
c
8
(y
38
+ 10y
37
+ ··· + 95094y + 289)
· (y
109
15y
108
+ ··· + 809760664993586y 11561026822801)
c
10
(y
38
20y
37
+ ··· 32y + 1)(y
109
37y
108
+ ··· + 624376y 529)
c
12
(y
38
30y
37
+ ··· + 7725y + 625)
· (y
109
27y
108
+ ··· 202910749y 1485961)
26