12n
0620
(K12n
0620
)
A knot diagram
1
Linearized knot diagam
3 8 6 10 9 1 10 2 12 8 5 4
Solving Sequence
3,8
2 9
1,10
7 6 4 5 12 11
c
2
c
8
c
1
c
7
c
6
c
3
c
5
c
12
c
11
c
4
, c
9
, c
10
Ideals for irreducible components
2
of X
par
I
u
1
= h−2.73681 × 10
256
u
109
4.05736 × 10
257
u
108
+ ··· + 1.53699 × 10
257
b 1.76787 × 10
260
,
1.94900 × 10
259
u
109
3.61458 × 10
259
u
108
+ ··· + 4.59560 × 10
259
a 9.14146 × 10
260
,
u
110
2u
109
+ ··· 963u + 299i
I
u
2
= h11609161034u
38
+ 12620010667u
37
+ ··· + 1705879031b + 52177194139,
15376761536u
38
26045766200u
37
+ ··· + 5117637093a 26089510019,
u
39
+ u
38
+ ··· 5u + 3i
* 2 irreducible components of dim
C
= 0, with total 149 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−2.74 × 10
256
u
109
4.06 × 10
257
u
108
+ · · · + 1.54 × 10
257
b 1.77 ×
10
260
, 1.95 × 10
259
u
109
3.61 × 10
259
u
108
+ · · · + 4.60 × 10
259
a 9.14 ×
10
260
, u
110
2u
109
+ · · · 963u + 299i
(i) Arc colorings
a
3
=
1
0
a
8
=
0
u
a
2
=
1
u
2
a
9
=
u
u
3
+ u
a
1
=
u
2
+ 1
u
2
a
10
=
0.424100u
109
+ 0.786531u
108
+ ··· 129.279u + 19.8918
0.178063u
109
+ 2.63981u
108
+ ··· 2882.73u + 1150.21
a
7
=
0.353328u
109
+ 1.67139u
108
+ ··· 1477.43u + 519.669
0.532410u
109
2.28550u
108
+ ··· + 1910.28u 663.962
a
6
=
0.944196u
109
+ 2.84949u
108
+ ··· 2069.39u + 645.488
0.965844u
109
2.70003u
108
+ ··· + 1777.43u 527.622
a
4
=
0.721156u
109
+ 1.24858u
108
+ ··· 776.539u + 163.332
0.969958u
109
1.71452u
108
+ ··· + 488.229u + 11.3660
a
5
=
0.344268u
109
0.0978060u
108
+ ··· 369.928u + 206.437
1.24825u
109
3.84301u
108
+ ··· + 2734.98u 855.933
a
12
=
0.608160u
109
0.734139u
108
+ ··· + 154.268u + 49.4400
0.366448u
109
2.01607u
108
+ ··· + 1749.68u 629.644
a
11
=
0.424100u
109
0.786531u
108
+ ··· + 129.279u 19.8918
0.751274u
109
1.98316u
108
+ ··· + 2815.31u 1168.65
(ii) Obstruction class = 1
(iii) Cusp Shapes = 19.0742u
109
31.2577u
108
+ ··· + 11449.6u 1567.00
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
110
+ 42u
109
+ ··· + 4187325u + 89401
c
2
, c
8
u
110
+ 2u
109
+ ··· + 963u + 299
c
3
u
110
+ 10u
109
+ ··· + 25u 1
c
4
u
110
+ 8u
108
+ ··· + 1099616u + 270272
c
5
u
110
3u
109
+ ··· + 9806561u + 1029481
c
6
u
110
+ 5u
109
+ ··· + 140122u 5273
c
7
, c
10
u
110
+ u
109
+ ··· + 26u + 1
c
9
u
110
7u
109
+ ··· 40u + 1
c
11
u
110
+ 3u
109
+ ··· + 54488131u + 3556907
c
12
u
110
+ 8u
109
+ ··· 5432u + 83
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
110
+ 62y
109
+ ··· 1749078882747y + 7992538801
c
2
, c
8
y
110
+ 42y
109
+ ··· + 4187325y + 89401
c
3
y
110
24y
109
+ ··· 35y + 1
c
4
y
110
+ 16y
109
+ ··· + 4786463564800y + 73046953984
c
5
y
110
29y
109
+ ··· 26980827938145y + 1059831129361
c
6
y
110
+ 45y
109
+ ··· 976149500y + 27804529
c
7
, c
10
y
110
+ 87y
109
+ ··· + 98y + 1
c
9
y
110
27y
109
+ ··· 484y + 1
c
11
y
110
+ 23y
109
+ ··· 545838580976069y + 12651587406649
c
12
y
110
6y
109
+ ··· 29183256y + 6889
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.722846 + 0.701707I
a = 1.017860 0.590067I
b = 0.727453 0.080952I
3.33089 2.04230I 0
u = 0.722846 0.701707I
a = 1.017860 + 0.590067I
b = 0.727453 + 0.080952I
3.33089 + 2.04230I 0
u = 0.445918 + 0.876034I
a = 0.58584 1.30472I
b = 1.41639 0.62868I
6.18417 + 2.12923I 0
u = 0.445918 0.876034I
a = 0.58584 + 1.30472I
b = 1.41639 + 0.62868I
6.18417 2.12923I 0
u = 0.698901 + 0.679034I
a = 0.90817 1.27666I
b = 0.86504 2.14123I
3.33911 + 2.19870I 0
u = 0.698901 0.679034I
a = 0.90817 + 1.27666I
b = 0.86504 + 2.14123I
3.33911 2.19870I 0
u = 0.346243 + 0.975342I
a = 0.413122 + 0.497225I
b = 0.006959 + 0.697219I
0.60914 1.80163I 0
u = 0.346243 0.975342I
a = 0.413122 0.497225I
b = 0.006959 0.697219I
0.60914 + 1.80163I 0
u = 0.763827 + 0.726239I
a = 1.59712 0.66520I
b = 0.18657 1.56551I
7.19825 4.32425I 0
u = 0.763827 0.726239I
a = 1.59712 + 0.66520I
b = 0.18657 + 1.56551I
7.19825 + 4.32425I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.571377 + 0.750356I
a = 0.769118 + 0.584129I
b = 0.216929 + 0.253116I
1.84127 0.70860I 0
u = 0.571377 0.750356I
a = 0.769118 0.584129I
b = 0.216929 0.253116I
1.84127 + 0.70860I 0
u = 0.595378 + 0.874733I
a = 0.177994 1.026400I
b = 0.43318 1.54478I
2.04500 + 5.27108I 0
u = 0.595378 0.874733I
a = 0.177994 + 1.026400I
b = 0.43318 + 1.54478I
2.04500 5.27108I 0
u = 0.626457 + 0.864050I
a = 1.14154 0.95416I
b = 0.96129 2.66223I
2.41221 2.45417I 0
u = 0.626457 0.864050I
a = 1.14154 + 0.95416I
b = 0.96129 + 2.66223I
2.41221 + 2.45417I 0
u = 0.337405 + 0.860809I
a = 0.545050 0.680241I
b = 1.90211 0.19509I
3.62539 1.21292I 0
u = 0.337405 0.860809I
a = 0.545050 + 0.680241I
b = 1.90211 + 0.19509I
3.62539 + 1.21292I 0
u = 0.002367 + 0.923336I
a = 1.198900 0.401062I
b = 1.352370 0.092461I
1.97943 4.96044I 0
u = 0.002367 0.923336I
a = 1.198900 + 0.401062I
b = 1.352370 + 0.092461I
1.97943 + 4.96044I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.362094 + 1.020900I
a = 0.431256 + 0.237298I
b = 0.677429 + 0.253537I
1.86815 0.95241I 0
u = 0.362094 1.020900I
a = 0.431256 0.237298I
b = 0.677429 0.253537I
1.86815 + 0.95241I 0
u = 1.09151
a = 1.20966
b = 0.426400
2.72278 0
u = 0.156976 + 0.886403I
a = 0.517031 0.819311I
b = 2.20512 1.12750I
5.39558 + 5.25843I 0
u = 0.156976 0.886403I
a = 0.517031 + 0.819311I
b = 2.20512 + 1.12750I
5.39558 5.25843I 0
u = 0.704749 + 0.860618I
a = 1.10219 + 0.90580I
b = 1.22696 + 2.04135I
6.18973 6.69907I 0
u = 0.704749 0.860618I
a = 1.10219 0.90580I
b = 1.22696 2.04135I
6.18973 + 6.69907I 0
u = 0.703019 + 0.866531I
a = 0.410291 0.025373I
b = 1.26321 0.79273I
2.06981 + 6.66278I 0
u = 0.703019 0.866531I
a = 0.410291 + 0.025373I
b = 1.26321 + 0.79273I
2.06981 6.66278I 0
u = 0.440379 + 0.763170I
a = 0.64807 + 1.58057I
b = 1.141980 + 0.190483I
5.80700 + 1.50471I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.440379 0.763170I
a = 0.64807 1.58057I
b = 1.141980 0.190483I
5.80700 1.50471I 0
u = 0.804886 + 0.781354I
a = 1.35580 + 0.79298I
b = 0.33866 + 1.71063I
7.48927 + 1.66053I 0
u = 0.804886 0.781354I
a = 1.35580 0.79298I
b = 0.33866 1.71063I
7.48927 1.66053I 0
u = 0.856105 + 0.734749I
a = 1.17022 + 0.96909I
b = 1.012480 + 0.338174I
1.48996 + 3.88010I 0
u = 0.856105 0.734749I
a = 1.17022 0.96909I
b = 1.012480 0.338174I
1.48996 3.88010I 0
u = 0.150463 + 1.124600I
a = 1.031350 + 0.040889I
b = 0.215838 + 0.240483I
1.23331 + 1.22688I 0
u = 0.150463 1.124600I
a = 1.031350 0.040889I
b = 0.215838 0.240483I
1.23331 1.22688I 0
u = 0.719221 + 0.878314I
a = 0.907622 + 0.945954I
b = 0.35687 + 2.59585I
6.14126 + 1.24957I 0
u = 0.719221 0.878314I
a = 0.907622 0.945954I
b = 0.35687 2.59585I
6.14126 1.24957I 0
u = 0.296758 + 0.812163I
a = 1.257690 + 0.297788I
b = 0.518619 0.150423I
0.537031 1.207440I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.296758 0.812163I
a = 1.257690 0.297788I
b = 0.518619 + 0.150423I
0.537031 + 1.207440I 0
u = 0.997006 + 0.556264I
a = 1.19356 + 0.90160I
b = 0.43208 + 1.57023I
8.27801 4.57132I 0
u = 0.997006 0.556264I
a = 1.19356 0.90160I
b = 0.43208 1.57023I
8.27801 + 4.57132I 0
u = 0.400337 + 1.070610I
a = 0.130198 + 0.182402I
b = 0.139502 0.845139I
4.28944 + 3.55197I 0
u = 0.400337 1.070610I
a = 0.130198 0.182402I
b = 0.139502 + 0.845139I
4.28944 3.55197I 0
u = 0.256791 + 0.805667I
a = 0.464107 + 1.205970I
b = 1.098290 + 0.008504I
3.53626 + 3.81291I 0
u = 0.256791 0.805667I
a = 0.464107 1.205970I
b = 1.098290 0.008504I
3.53626 3.81291I 0
u = 0.281043 + 1.129070I
a = 0.0542065 + 0.1136410I
b = 0.136152 0.267958I
5.24948 0.28210I 0
u = 0.281043 1.129070I
a = 0.0542065 0.1136410I
b = 0.136152 + 0.267958I
5.24948 + 0.28210I 0
u = 0.849507 + 0.809289I
a = 0.741868 + 1.083740I
b = 0.40181 + 2.05841I
3.63531 + 1.33713I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.849507 0.809289I
a = 0.741868 1.083740I
b = 0.40181 2.05841I
3.63531 1.33713I 0
u = 0.292829 + 1.140030I
a = 1.180480 + 0.389242I
b = 1.46797 + 0.39561I
0.137879 + 0.321132I 0
u = 0.292829 1.140030I
a = 1.180480 0.389242I
b = 1.46797 0.39561I
0.137879 0.321132I 0
u = 1.024800 + 0.580684I
a = 1.19370 1.00233I
b = 0.34345 1.67474I
7.2811 12.3035I 0
u = 1.024800 0.580684I
a = 1.19370 + 1.00233I
b = 0.34345 + 1.67474I
7.2811 + 12.3035I 0
u = 0.749698 + 0.289214I
a = 0.1297850 + 0.0239455I
b = 0.240853 + 0.119770I
0.98667 3.24837I 0
u = 0.749698 0.289214I
a = 0.1297850 0.0239455I
b = 0.240853 0.119770I
0.98667 + 3.24837I 0
u = 1.054500 + 0.566130I
a = 0.537611 1.194650I
b = 0.55155 1.70109I
8.01631 + 1.94598I 0
u = 1.054500 0.566130I
a = 0.537611 + 1.194650I
b = 0.55155 + 1.70109I
8.01631 1.94598I 0
u = 0.677358 + 0.988928I
a = 0.631718 + 0.861883I
b = 0.957361 + 0.484007I
2.45837 3.33905I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.677358 0.988928I
a = 0.631718 0.861883I
b = 0.957361 0.484007I
2.45837 + 3.33905I 0
u = 0.222666 + 0.768558I
a = 0.777803 + 0.666985I
b = 2.96488 + 0.93575I
4.79949 3.56029I 0
u = 0.222666 0.768558I
a = 0.777803 0.666985I
b = 2.96488 0.93575I
4.79949 + 3.56029I 0
u = 0.567412 + 1.059780I
a = 0.0499061 0.1307740I
b = 0.765301 + 0.192801I
0.04110 + 7.67997I 0
u = 0.567412 1.059780I
a = 0.0499061 + 0.1307740I
b = 0.765301 0.192801I
0.04110 7.67997I 0
u = 0.522752 + 1.085990I
a = 0.973408 0.524333I
b = 1.46745 1.79487I
1.33546 7.85597I 0
u = 0.522752 1.085990I
a = 0.973408 + 0.524333I
b = 1.46745 + 1.79487I
1.33546 + 7.85597I 0
u = 0.667948 + 1.003410I
a = 1.104430 0.758801I
b = 0.58229 2.28353I
2.34844 7.49528I 0
u = 0.667948 1.003410I
a = 1.104430 + 0.758801I
b = 0.58229 + 2.28353I
2.34844 + 7.49528I 0
u = 0.703432 + 0.982255I
a = 0.57713 1.34466I
b = 0.71275 2.41009I
6.41324 + 9.89890I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.703432 0.982255I
a = 0.57713 + 1.34466I
b = 0.71275 + 2.41009I
6.41324 9.89890I 0
u = 0.752637 + 0.948523I
a = 0.677210 + 1.194750I
b = 0.62119 + 2.34760I
6.97709 + 4.18089I 0
u = 0.752637 0.948523I
a = 0.677210 1.194750I
b = 0.62119 2.34760I
6.97709 4.18089I 0
u = 0.742838 + 0.959284I
a = 0.452411 + 0.181354I
b = 0.984265 + 0.575575I
2.19004 1.11649I 0
u = 0.742838 0.959284I
a = 0.452411 0.181354I
b = 0.984265 0.575575I
2.19004 + 1.11649I 0
u = 0.839106 + 0.897477I
a = 0.860838 + 0.936493I
b = 0.63470 + 2.13840I
6.76959 + 3.11743I 0
u = 0.839106 0.897477I
a = 0.860838 0.936493I
b = 0.63470 2.13840I
6.76959 3.11743I 0
u = 0.490267 + 0.588933I
a = 0.408893 + 0.539297I
b = 0.118510 + 0.402371I
0.37791 1.68859I 0
u = 0.490267 0.588933I
a = 0.408893 0.539297I
b = 0.118510 0.402371I
0.37791 + 1.68859I 0
u = 0.791619 + 0.967926I
a = 1.012830 + 0.862680I
b = 0.61314 + 1.87380I
3.14059 7.45185I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.791619 0.967926I
a = 1.012830 0.862680I
b = 0.61314 1.87380I
3.14059 + 7.45185I 0
u = 0.754952 + 1.002980I
a = 0.96228 1.04203I
b = 1.267360 0.506770I
0.65666 9.87625I 0
u = 0.754952 1.002980I
a = 0.96228 + 1.04203I
b = 1.267360 + 0.506770I
0.65666 + 9.87625I 0
u = 0.597618 + 0.441462I
a = 0.257840 0.234467I
b = 0.253860 + 0.711613I
1.80194 2.98891I 0
u = 0.597618 0.441462I
a = 0.257840 + 0.234467I
b = 0.253860 0.711613I
1.80194 + 2.98891I 0
u = 0.544171 + 1.135500I
a = 0.0599171 + 0.0180853I
b = 0.108409 0.279795I
3.47609 + 8.12962I 0
u = 0.544171 1.135500I
a = 0.0599171 0.0180853I
b = 0.108409 + 0.279795I
3.47609 8.12962I 0
u = 0.262254 + 0.649877I
a = 1.98854 0.43600I
b = 0.613552 + 0.641324I
3.47982 + 4.08661I 13.33560 + 0.I
u = 0.262254 0.649877I
a = 1.98854 + 0.43600I
b = 0.613552 0.641324I
3.47982 4.08661I 13.33560 + 0.I
u = 0.408299 + 1.249070I
a = 0.213406 1.114190I
b = 0.11995 2.87727I
7.06000 + 4.83351I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.408299 1.249070I
a = 0.213406 + 1.114190I
b = 0.11995 + 2.87727I
7.06000 4.83351I 0
u = 0.654822 + 0.139766I
a = 0.58380 2.18903I
b = 0.261229 0.419096I
3.74355 + 3.53991I 4.00000 3.29686I
u = 0.654822 0.139766I
a = 0.58380 + 2.18903I
b = 0.261229 + 0.419096I
3.74355 3.53991I 4.00000 + 3.29686I
u = 0.734549 + 1.136420I
a = 0.621206 + 1.112780I
b = 0.61835 + 2.68599I
6.46528 + 10.86220I 0
u = 0.734549 1.136420I
a = 0.621206 1.112780I
b = 0.61835 2.68599I
6.46528 10.86220I 0
u = 0.754779 + 1.142830I
a = 0.703845 1.136610I
b = 0.56031 2.63452I
5.5076 + 18.7521I 0
u = 0.754779 1.142830I
a = 0.703845 + 1.136610I
b = 0.56031 + 2.63452I
5.5076 18.7521I 0
u = 1.321520 + 0.379233I
a = 0.337643 + 1.187470I
b = 0.31220 + 1.53336I
5.74971 5.00037I 0
u = 1.321520 0.379233I
a = 0.337643 1.187470I
b = 0.31220 1.53336I
5.74971 + 5.00037I 0
u = 0.771559 + 1.151210I
a = 0.890069 0.688454I
b = 0.27955 2.00957I
6.19341 8.51585I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.771559 1.151210I
a = 0.890069 + 0.688454I
b = 0.27955 + 2.00957I
6.19341 + 8.51585I 0
u = 0.164450 + 1.385290I
a = 1.021200 0.385607I
b = 0.446356 0.603996I
0.89195 9.78273I 0
u = 0.164450 1.385290I
a = 1.021200 + 0.385607I
b = 0.446356 + 0.603996I
0.89195 + 9.78273I 0
u = 0.581174
a = 0.508856
b = 0.502116
1.35474 7.05700
u = 0.19366 + 1.40634I
a = 0.874181 + 0.427985I
b = 0.205974 + 0.896255I
0.33041 2.04839I 0
u = 0.19366 1.40634I
a = 0.874181 0.427985I
b = 0.205974 0.896255I
0.33041 + 2.04839I 0
u = 0.96655 + 1.06458I
a = 0.755366 + 0.862184I
b = 0.35356 + 1.85000I
4.02708 3.77390I 0
u = 0.96655 1.06458I
a = 0.755366 0.862184I
b = 0.35356 1.85000I
4.02708 + 3.77390I 0
u = 0.038866 + 0.292210I
a = 2.66380 + 0.09334I
b = 1.041810 + 0.607287I
1.75436 2.59200I 2.03482 + 0.31842I
u = 0.038866 0.292210I
a = 2.66380 0.09334I
b = 1.041810 0.607287I
1.75436 + 2.59200I 2.03482 0.31842I
15
II.
I
u
2
= h1.16 × 10
10
u
38
+ 1.26 × 10
10
u
37
+ · · · + 1.71× 10
9
b + 5.22 ×10
10
, 1.54 ×
10
10
u
38
2.60×10
10
u
37
+· · ·+5.12×10
9
a2.61×10
10
, u
39
+u
38
+· · ·5u+3i
(i) Arc colorings
a
3
=
1
0
a
8
=
0
u
a
2
=
1
u
2
a
9
=
u
u
3
+ u
a
1
=
u
2
+ 1
u
2
a
10
=
3.00466u
38
+ 5.08941u
37
+ ··· + 24.6462u + 5.09796
6.80538u
38
7.39795u
37
+ ··· + 32.7085u 30.5867
a
7
=
6.48500u
38
8.88570u
37
+ ··· 34.1505u 5.35458
5.68266u
38
3.83171u
37
+ ··· 43.6053u + 9.98890
a
6
=
9.15840u
38
12.6366u
37
+ ··· 49.6185u 6.44140
4.32777u
38
2.99455u
37
+ ··· 34.3192u + 11.6682
a
4
=
3.46041u
38
4.94835u
37
+ ··· 22.2584u 1.61415
2.42874u
38
+ 0.548168u
37
+ ··· 68.6513u + 30.8932
a
5
=
9.12343u
38
9.84116u
37
+ ··· 59.5190u + 4.95937
3.51702u
38
0.614793u
37
+ ··· 30.5223u + 14.7875
a
12
=
5.65559u
38
+ 2.56831u
37
+ ··· + 56.6364u 19.5593
3.18047u
38
4.57244u
37
+ ··· + 8.65337u 11.4424
a
11
=
3.00466u
38
+ 5.08941u
37
+ ··· + 24.6462u + 5.09796
7.48515u
38
8.60320u
37
+ ··· + 34.1183u 36.8409
(ii) Obstruction class = 1
(iii) Cusp Shapes =
20149469114
1705879031
u
38
11732042020
1705879031
u
37
+ ···
334502621797
1705879031
u +
5505549483
1705879031
16
(iv) u-Polynomials at the component
17
Crossings u-Polynomials at each crossing
c
1
u
39
19u
38
+ ··· 173u + 9
c
2
u
39
+ u
38
+ ··· 5u + 3
c
3
u
39
21u
38
+ ··· + 7u 1
c
4
u
39
+ u
38
+ ··· 2u + 1
c
5
u
39
+ 8u
36
+ ··· + 19u + 1
c
6
u
39
4u
38
+ ··· + 14u + 1
c
7
u
39
2u
38
+ ··· 2u 1
c
8
u
39
u
38
+ ··· 5u 3
c
9
u
39
14u
38
+ ··· + 12u 1
c
10
u
39
+ 2u
38
+ ··· 2u + 1
c
11
u
39
2u
38
+ ··· u 3
c
12
u
39
u
38
+ ··· 4u + 1
18
19
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
39
+ 11y
38
+ ··· + 103y 81
c
2
, c
8
y
39
+ 19y
38
+ ··· 173y 9
c
3
y
39
23y
38
+ ··· + 3y 1
c
4
y
39
23y
38
+ ··· 12y 1
c
5
y
39
48y
37
+ ··· + 317y 1
c
6
y
39
+ 10y
38
+ ··· + 60y 1
c
7
, c
10
y
39
+ 8y
38
+ ··· + 26y 1
c
9
y
39
18y
38
+ ··· + 4y 1
c
11
y
39
20y
38
+ ··· + 121y 9
c
12
y
39
+ 11y
38
+ ··· + 16y 1
20
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.381509 + 0.917059I
a = 0.055108 + 0.492299I
b = 2.64138 1.32304I
4.84250 6.01524I 7.39015 + 9.84235I
u = 0.381509 0.917059I
a = 0.055108 0.492299I
b = 2.64138 + 1.32304I
4.84250 + 6.01524I 7.39015 9.84235I
u = 0.157939 + 1.016680I
a = 1.230100 + 0.275403I
b = 0.869444 0.397926I
0.309417 + 0.564833I 11.10551 1.04698I
u = 0.157939 1.016680I
a = 1.230100 0.275403I
b = 0.869444 + 0.397926I
0.309417 0.564833I 11.10551 + 1.04698I
u = 0.374304 + 0.866275I
a = 0.287460 0.459532I
b = 3.24378 + 0.90407I
4.65276 + 2.86183I 8.72125 + 1.48205I
u = 0.374304 0.866275I
a = 0.287460 + 0.459532I
b = 3.24378 0.90407I
4.65276 2.86183I 8.72125 1.48205I
u = 0.488776 + 0.964307I
a = 0.686621 1.028550I
b = 1.250150 0.271535I
6.38253 + 2.66006I 13.9544 10.9667I
u = 0.488776 0.964307I
a = 0.686621 + 1.028550I
b = 1.250150 + 0.271535I
6.38253 2.66006I 13.9544 + 10.9667I
u = 0.786721 + 0.781260I
a = 0.757095 + 1.128990I
b = 0.53819 + 2.17515I
4.36068 + 1.41163I 1.07438 1.63800I
u = 0.786721 0.781260I
a = 0.757095 1.128990I
b = 0.53819 2.17515I
4.36068 1.41163I 1.07438 + 1.63800I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.487152 + 0.737238I
a = 0.77118 + 1.59271I
b = 1.294470 + 0.302016I
5.60145 + 1.33676I 2.67435 + 9.87638I
u = 0.487152 0.737238I
a = 0.77118 1.59271I
b = 1.294470 0.302016I
5.60145 1.33676I 2.67435 9.87638I
u = 1.003500 + 0.538416I
a = 0.62597 + 1.29517I
b = 0.58422 + 1.49706I
5.41733 + 4.52189I 4.50034 4.01452I
u = 1.003500 0.538416I
a = 0.62597 1.29517I
b = 0.58422 1.49706I
5.41733 4.52189I 4.50034 + 4.01452I
u = 0.336615 + 1.093440I
a = 0.440002 0.353670I
b = 0.690677 + 0.157463I
5.37949 0.76456I 11.81802 + 7.51740I
u = 0.336615 1.093440I
a = 0.440002 + 0.353670I
b = 0.690677 0.157463I
5.37949 + 0.76456I 11.81802 7.51740I
u = 1.14447
a = 1.10497
b = 0.514924
2.83583 46.6120
u = 0.679942 + 0.953484I
a = 0.303900 0.514678I
b = 0.79200 1.18044I
2.67499 7.07270I 10.5818 + 10.8935I
u = 0.679942 0.953484I
a = 0.303900 + 0.514678I
b = 0.79200 + 1.18044I
2.67499 + 7.07270I 10.5818 10.8935I
u = 0.712859 + 0.378244I
a = 0.833822 + 0.362873I
b = 0.394868 + 0.081022I
1.58544 3.30132I 10.50768 + 3.97124I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.712859 0.378244I
a = 0.833822 0.362873I
b = 0.394868 0.081022I
1.58544 + 3.30132I 10.50768 3.97124I
u = 0.149539 + 1.192040I
a = 0.882984 + 0.014537I
b = 0.385730 + 0.022764I
0.760558 + 1.166500I 0.78374 5.31915I
u = 0.149539 1.192040I
a = 0.882984 0.014537I
b = 0.385730 0.022764I
0.760558 1.166500I 0.78374 + 5.31915I
u = 0.503517 + 1.097370I
a = 0.901381 0.456802I
b = 1.17970 1.17478I
1.96107 + 7.82530I 1.58001 8.33410I
u = 0.503517 1.097370I
a = 0.901381 + 0.456802I
b = 1.17970 + 1.17478I
1.96107 7.82530I 1.58001 + 8.33410I
u = 0.748258 + 0.981212I
a = 1.031590 + 0.779076I
b = 0.63515 + 1.95664I
3.74165 7.21979I 0. + 5.50828I
u = 0.748258 0.981212I
a = 1.031590 0.779076I
b = 0.63515 1.95664I
3.74165 + 7.21979I 0. 5.50828I
u = 0.549832 + 1.115040I
a = 0.164961 0.405266I
b = 0.439895 0.349678I
3.80185 + 8.15309I 19.0524 8.2054I
u = 0.549832 1.115040I
a = 0.164961 + 0.405266I
b = 0.439895 + 0.349678I
3.80185 8.15309I 19.0524 + 8.2054I
u = 0.189863 + 0.675716I
a = 1.158180 0.077473I
b = 1.290150 0.570160I
1.34646 2.99430I 8.12142 + 9.02848I
23
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.189863 0.675716I
a = 1.158180 + 0.077473I
b = 1.290150 + 0.570160I
1.34646 + 2.99430I 8.12142 9.02848I
u = 0.419941 + 1.229910I
a = 0.174810 1.097680I
b = 0.12861 2.96842I
7.15090 4.72557I 25.9426 17.9514I
u = 0.419941 1.229910I
a = 0.174810 + 1.097680I
b = 0.12861 + 2.96842I
7.15090 + 4.72557I 25.9426 + 17.9514I
u = 0.084189 + 0.686727I
a = 0.65325 + 1.40719I
b = 1.46534 + 0.61488I
3.35584 + 2.88777I 6.85176 2.26602I
u = 0.084189 0.686727I
a = 0.65325 1.40719I
b = 1.46534 0.61488I
3.35584 2.88777I 6.85176 + 2.26602I
u = 0.348774 + 0.592391I
a = 1.80358 0.63228I
b = 0.081902 + 0.480520I
3.88988 4.04539I 6.73624 + 2.96880I
u = 0.348774 0.592391I
a = 1.80358 + 0.63228I
b = 0.081902 0.480520I
3.88988 + 4.04539I 6.73624 2.96880I
u = 0.870844 + 1.009680I
a = 0.581836 + 0.266590I
b = 0.794734 + 0.505924I
2.41024 + 1.21179I 29.5248 13.9009I
u = 0.870844 1.009680I
a = 0.581836 0.266590I
b = 0.794734 0.505924I
2.41024 1.21179I 29.5248 + 13.9009I
24
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
39
19u
38
+ ··· 173u + 9)
· (u
110
+ 42u
109
+ ··· + 4187325u + 89401)
c
2
(u
39
+ u
38
+ ··· 5u + 3)(u
110
+ 2u
109
+ ··· + 963u + 299)
c
3
(u
39
21u
38
+ ··· + 7u 1)(u
110
+ 10u
109
+ ··· + 25u 1)
c
4
(u
39
+ u
38
+ ··· 2u + 1)(u
110
+ 8u
108
+ ··· + 1099616u + 270272)
c
5
(u
39
+ 8u
36
+ ··· + 19u + 1)
· (u
110
3u
109
+ ··· + 9806561u + 1029481)
c
6
(u
39
4u
38
+ ··· + 14u + 1)(u
110
+ 5u
109
+ ··· + 140122u 5273)
c
7
(u
39
2u
38
+ ··· 2u 1)(u
110
+ u
109
+ ··· + 26u + 1)
c
8
(u
39
u
38
+ ··· 5u 3)(u
110
+ 2u
109
+ ··· + 963u + 299)
c
9
(u
39
14u
38
+ ··· + 12u 1)(u
110
7u
109
+ ··· 40u + 1)
c
10
(u
39
+ 2u
38
+ ··· 2u + 1)(u
110
+ u
109
+ ··· + 26u + 1)
c
11
(u
39
2u
38
+ ··· u 3)(u
110
+ 3u
109
+ ··· + 5.44881 × 10
7
u + 3556907)
c
12
(u
39
u
38
+ ··· 4u + 1)(u
110
+ 8u
109
+ ··· 5432u + 83)
25
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
39
+ 11y
38
+ ··· + 103y 81)
· (y
110
+ 62y
109
+ ··· 1749078882747y + 7992538801)
c
2
, c
8
(y
39
+ 19y
38
+ ··· 173y 9)
· (y
110
+ 42y
109
+ ··· + 4187325y + 89401)
c
3
(y
39
23y
38
+ ··· + 3y 1)(y
110
24y
109
+ ··· 35y + 1)
c
4
(y
39
23y
38
+ ··· 12y 1)
· (y
110
+ 16y
109
+ ··· + 4786463564800y + 73046953984)
c
5
(y
39
48y
37
+ ··· + 317y 1)
· (y
110
29y
109
+ ··· 26980827938145y + 1059831129361)
c
6
(y
39
+ 10y
38
+ ··· + 60y 1)
· (y
110
+ 45y
109
+ ··· 976149500y + 27804529)
c
7
, c
10
(y
39
+ 8y
38
+ ··· + 26y 1)(y
110
+ 87y
109
+ ··· + 98y + 1)
c
9
(y
39
18y
38
+ ··· + 4y 1)(y
110
27y
109
+ ··· 484y + 1)
c
11
(y
39
20y
38
+ ··· + 121y 9)
· (y
110
+ 23y
109
+ ··· 545838580976069y + 12651587406649)
c
12
(y
39
+ 11y
38
+ ··· + 16y 1)(y
110
6y
109
+ ··· 29183256y + 6889)
26