12n
0783
(K12n
0783
)
A knot diagram
1
Linearized knot diagam
4 6 9 7 3 11 10 3 1 5 4 10
Solving Sequence
3,5 6,8
9 4 2 1 10 11 7 12
c
5
c
8
c
3
c
2
c
1
c
9
c
10
c
7
c
12
c
4
, c
6
, c
11
Ideals for irreducible components
2
of X
par
I
u
1
= h−5.05060 × 10
389
u
96
+ 5.72708 × 10
389
u
95
+ ··· + 2.60152 × 10
390
b + 2.75118 × 10
390
,
2.62698 × 10
389
u
96
+ 8.51804 × 10
389
u
95
+ ··· + 2.60152 × 10
390
a 6.09559 × 10
391
,
u
97
u
96
+ ··· 26u 1i
I
u
2
= h2.13340 × 10
23
u
33
+ 3.36277 × 10
23
u
32
+ ··· + 5.15575 × 10
22
b 2.19695 × 10
23
,
6.92894 × 10
22
u
33
+ 2.64178 × 10
22
u
32
+ ··· + 5.15575 × 10
22
a + 3.17866 × 10
22
, u
34
+ 2u
33
+ ··· + 2u + 1i
* 2 irreducible components of dim
C
= 0, with total 131 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−5.05 × 10
389
u
96
+ 5.73 × 10
389
u
95
+ · · · + 2.60 × 10
390
b + 2.75 ×
10
390
, 2.63 × 10
389
u
96
+ 8.52 × 10
389
u
95
+ · · · + 2.60 × 10
390
a 6.10 ×
10
391
, u
97
u
96
+ · · · 26u 1i
(i) Arc colorings
a
3
=
0
u
a
5
=
1
0
a
6
=
1
u
2
a
8
=
0.100978u
96
0.327425u
95
+ ··· + 391.203u + 23.4308
0.194140u
96
0.220143u
95
+ ··· 21.0064u 1.05753
a
9
=
0.100978u
96
0.327425u
95
+ ··· + 391.203u + 23.4308
0.220457u
96
0.252020u
95
+ ··· 26.7930u 1.28397
a
4
=
1.23839u
96
1.73803u
95
+ ··· + 326.757u + 15.7854
0.170008u
96
0.191437u
95
+ ··· 15.7017u 0.857083
a
2
=
u
u
3
+ u
a
1
=
3.70848u
96
+ 4.83210u
95
+ ··· + 72.9539u + 16.7184
0.211595u
96
0.250722u
95
+ ··· 36.1278u 1.45422
a
10
=
3.59279u
96
+ 4.62876u
95
+ ··· 240.869u 6.99467
0.0810977u
96
+ 0.0659827u
95
+ ··· + 3.16747u + 0.177008
a
11
=
3.51169u
96
+ 4.56278u
95
+ ··· 244.037u 7.17168
0.0810977u
96
+ 0.0659827u
95
+ ··· + 3.16747u + 0.177008
a
7
=
8.70315u
96
+ 9.85411u
95
+ ··· + 771.754u + 31.4956
0.318091u
96
0.370413u
95
+ ··· 44.5790u 2.59273
a
12
=
7.27267u
96
+ 9.07460u
95
+ ··· 250.054u 15.9505
0.429364u
96
+ 0.436517u
95
+ ··· + 57.8522u + 2.72828
(ii) Obstruction class = 1
(iii) Cusp Shapes = 4.81068u
96
5.73756u
95
+ ··· 506.753u 29.0779
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
97
11u
96
+ ··· 374950992u + 77123381
c
2
, c
5
u
97
+ u
96
+ ··· 26u + 1
c
3
, c
8
u
97
u
96
+ ··· 1679u + 193
c
4
u
97
5u
96
+ ··· + 2u + 1
c
6
u
97
+ u
96
+ ··· 51516u + 41391
c
7
u
97
+ 5u
96
+ ··· 340064u + 80363
c
9
, c
12
u
97
6u
96
+ ··· + 369u + 77
c
10
u
97
u
96
+ ··· 334u + 5
c
11
u
97
3u
96
+ ··· + 1176280393u + 231783103
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
97
+ 19y
96
+ ··· 39629618873565244y 5948015896871161
c
2
, c
5
y
97
+ 71y
96
+ ··· 140y 1
c
3
, c
8
y
97
33y
96
+ ··· + 1583455y 37249
c
4
y
97
3y
96
+ ··· 282y 1
c
6
y
97
+ 19y
96
+ ··· 63141732036y 1713214881
c
7
y
97
45y
96
+ ··· + 204622080600y 6458211769
c
9
, c
12
y
97
+ 28y
96
+ ··· + 6185y 5929
c
10
y
97
+ 21y
96
+ ··· 93964y 25
c
11
y
97
53y
96
+ ··· + 630230524010700897y 53723406836308609
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.760246 + 0.714813I
a = 0.193608 0.566947I
b = 0.731753 + 0.243850I
3.28969 1.97027I 0
u = 0.760246 0.714813I
a = 0.193608 + 0.566947I
b = 0.731753 0.243850I
3.28969 + 1.97027I 0
u = 0.657532 + 0.609454I
a = 0.726346 + 0.262206I
b = 0.083124 0.807986I
0.47950 + 4.79117I 0
u = 0.657532 0.609454I
a = 0.726346 0.262206I
b = 0.083124 + 0.807986I
0.47950 4.79117I 0
u = 0.685034 + 0.878100I
a = 0.675640 + 0.593394I
b = 1.044380 + 0.432774I
1.28499 4.64287I 0
u = 0.685034 0.878100I
a = 0.675640 0.593394I
b = 1.044380 0.432774I
1.28499 + 4.64287I 0
u = 0.075161 + 1.114100I
a = 0.416477 1.110930I
b = 0.878909 + 0.357543I
1.86695 + 1.01835I 0
u = 0.075161 1.114100I
a = 0.416477 + 1.110930I
b = 0.878909 0.357543I
1.86695 1.01835I 0
u = 0.016883 + 0.882984I
a = 0.123207 + 0.633830I
b = 0.588620 0.214403I
2.45092 1.33246I 0
u = 0.016883 0.882984I
a = 0.123207 0.633830I
b = 0.588620 + 0.214403I
2.45092 + 1.33246I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.375100 + 1.079430I
a = 1.249720 + 0.232941I
b = 1.68979 0.00461I
4.32226 + 1.56783I 0
u = 0.375100 1.079430I
a = 1.249720 0.232941I
b = 1.68979 + 0.00461I
4.32226 1.56783I 0
u = 0.698909 + 0.927947I
a = 0.674038 + 0.385290I
b = 1.170460 0.394638I
2.66934 + 7.52224I 0
u = 0.698909 0.927947I
a = 0.674038 0.385290I
b = 1.170460 + 0.394638I
2.66934 7.52224I 0
u = 1.192060 + 0.013477I
a = 0.650672 + 0.794722I
b = 0.665573 0.387174I
3.36728 + 4.65708I 0
u = 1.192060 0.013477I
a = 0.650672 0.794722I
b = 0.665573 + 0.387174I
3.36728 4.65708I 0
u = 0.143111 + 1.228920I
a = 1.059730 0.651904I
b = 2.01954 0.49278I
5.83853 + 1.62863I 0
u = 0.143111 1.228920I
a = 1.059730 + 0.651904I
b = 2.01954 + 0.49278I
5.83853 1.62863I 0
u = 1.048790 + 0.661651I
a = 0.586415 0.071737I
b = 0.564556 0.082756I
3.62452 0.55595I 0
u = 1.048790 0.661651I
a = 0.586415 + 0.071737I
b = 0.564556 + 0.082756I
3.62452 + 0.55595I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.097511 + 0.747941I
a = 0.158274 + 0.682421I
b = 0.38468 1.36361I
3.46378 + 0.60519I 0
u = 0.097511 0.747941I
a = 0.158274 0.682421I
b = 0.38468 + 1.36361I
3.46378 0.60519I 0
u = 0.102907 + 1.241730I
a = 0.024011 0.962617I
b = 0.07257 + 1.49033I
0.02293 + 4.98958I 0
u = 0.102907 1.241730I
a = 0.024011 + 0.962617I
b = 0.07257 1.49033I
0.02293 4.98958I 0
u = 0.126641 + 1.242000I
a = 0.305893 1.351710I
b = 0.335000 0.398209I
2.02501 + 5.36360I 0
u = 0.126641 1.242000I
a = 0.305893 + 1.351710I
b = 0.335000 + 0.398209I
2.02501 5.36360I 0
u = 0.089842 + 1.252000I
a = 0.749715 0.687310I
b = 2.12267 0.29254I
5.04826 + 1.44747I 0
u = 0.089842 1.252000I
a = 0.749715 + 0.687310I
b = 2.12267 + 0.29254I
5.04826 1.44747I 0
u = 0.836827 + 0.976492I
a = 0.437313 + 0.429368I
b = 0.337845 + 0.111976I
2.58166 6.15181I 0
u = 0.836827 0.976492I
a = 0.437313 0.429368I
b = 0.337845 0.111976I
2.58166 + 6.15181I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.157774 + 1.281570I
a = 0.865184 0.313827I
b = 2.04324 0.43736I
6.05737 0.52590I 0
u = 0.157774 1.281570I
a = 0.865184 + 0.313827I
b = 2.04324 + 0.43736I
6.05737 + 0.52590I 0
u = 0.299586 + 1.281380I
a = 0.315544 0.112531I
b = 1.39447 0.51312I
2.64307 0.65871I 0
u = 0.299586 1.281380I
a = 0.315544 + 0.112531I
b = 1.39447 + 0.51312I
2.64307 + 0.65871I 0
u = 0.088041 + 0.675207I
a = 0.462310 + 0.687813I
b = 0.20410 + 2.84623I
2.00678 5.79597I 0
u = 0.088041 0.675207I
a = 0.462310 0.687813I
b = 0.20410 2.84623I
2.00678 + 5.79597I 0
u = 0.109003 + 1.318850I
a = 0.636753 0.514745I
b = 2.19168 0.61999I
6.85780 0.45615I 0
u = 0.109003 1.318850I
a = 0.636753 + 0.514745I
b = 2.19168 + 0.61999I
6.85780 + 0.45615I 0
u = 0.188162 + 1.317810I
a = 0.945038 0.633570I
b = 1.86013 0.84259I
5.61056 + 6.55817I 0
u = 0.188162 1.317810I
a = 0.945038 + 0.633570I
b = 1.86013 + 0.84259I
5.61056 6.55817I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.089708 + 0.659104I
a = 0.625499 + 0.526885I
b = 0.05591 + 1.92916I
3.26210 0.88688I 0
u = 0.089708 0.659104I
a = 0.625499 0.526885I
b = 0.05591 1.92916I
3.26210 + 0.88688I 0
u = 0.550225 + 0.370829I
a = 1.37374 0.59279I
b = 0.316027 + 0.051040I
2.09843 0.04727I 0
u = 0.550225 0.370829I
a = 1.37374 + 0.59279I
b = 0.316027 0.051040I
2.09843 + 0.04727I 0
u = 0.123707 + 1.336890I
a = 0.736641 0.859650I
b = 1.83600 0.87769I
3.96502 + 7.65593I 0
u = 0.123707 1.336890I
a = 0.736641 + 0.859650I
b = 1.83600 + 0.87769I
3.96502 7.65593I 0
u = 0.216477 + 1.329420I
a = 0.663961 + 0.600756I
b = 1.63036 + 0.66732I
2.91727 2.78839I 0
u = 0.216477 1.329420I
a = 0.663961 0.600756I
b = 1.63036 0.66732I
2.91727 + 2.78839I 0
u = 1.351690 + 0.149440I
a = 0.203956 + 0.310315I
b = 0.437082 + 0.252251I
3.83697 + 0.72522I 0
u = 1.351690 0.149440I
a = 0.203956 0.310315I
b = 0.437082 0.252251I
3.83697 0.72522I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.317800 + 0.362941I
a = 0.632288 0.804333I
b = 0.463138 + 0.501894I
2.24710 + 1.96831I 0
u = 1.317800 0.362941I
a = 0.632288 + 0.804333I
b = 0.463138 0.501894I
2.24710 1.96831I 0
u = 0.108809 + 1.380310I
a = 0.548841 0.700707I
b = 2.06110 0.88847I
5.96593 5.15729I 0
u = 0.108809 1.380310I
a = 0.548841 + 0.700707I
b = 2.06110 + 0.88847I
5.96593 + 5.15729I 0
u = 0.058707 + 1.388820I
a = 0.174490 1.006260I
b = 1.276610 + 0.366071I
1.80692 + 3.28415I 0
u = 0.058707 1.388820I
a = 0.174490 + 1.006260I
b = 1.276610 0.366071I
1.80692 3.28415I 0
u = 0.16810 + 1.40583I
a = 0.675284 0.576755I
b = 1.79582 1.02764I
5.03173 7.86661I 0
u = 0.16810 1.40583I
a = 0.675284 + 0.576755I
b = 1.79582 + 1.02764I
5.03173 + 7.86661I 0
u = 1.43444 + 0.26314I
a = 0.472803 0.783305I
b = 0.696186 + 0.471124I
2.03664 3.97359I 0
u = 1.43444 0.26314I
a = 0.472803 + 0.783305I
b = 0.696186 0.471124I
2.03664 + 3.97359I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.45943 + 0.05125I
a = 0.685709 0.630236I
b = 0.523142 + 0.444804I
1.51054 10.86420I 0
u = 1.45943 0.05125I
a = 0.685709 + 0.630236I
b = 0.523142 0.444804I
1.51054 + 10.86420I 0
u = 0.37364 + 1.41664I
a = 0.729528 0.199140I
b = 1.39487 0.69099I
1.08235 6.60829I 0
u = 0.37364 1.41664I
a = 0.729528 + 0.199140I
b = 1.39487 + 0.69099I
1.08235 + 6.60829I 0
u = 0.481355
a = 0.991896
b = 0.351898
0.805526 12.2460
u = 0.60146 + 1.40743I
a = 0.794250 + 0.408001I
b = 2.24049 + 0.20916I
7.73228 + 10.97210I 0
u = 0.60146 1.40743I
a = 0.794250 0.408001I
b = 2.24049 0.20916I
7.73228 10.97210I 0
u = 0.149531 + 0.376901I
a = 1.41146 + 2.93327I
b = 0.32258 + 1.89399I
5.17781 4.19929I 10.90113 0.12456I
u = 0.149531 0.376901I
a = 1.41146 2.93327I
b = 0.32258 1.89399I
5.17781 + 4.19929I 10.90113 + 0.12456I
u = 0.25147 + 1.57784I
a = 0.141603 0.298107I
b = 0.91858 1.23999I
3.03072 4.98323I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.25147 1.57784I
a = 0.141603 + 0.298107I
b = 0.91858 + 1.23999I
3.03072 + 4.98323I 0
u = 1.59759 + 0.06972I
a = 0.996380 0.009892I
b = 2.54720 0.22324I
9.03979 + 1.64363I 0
u = 1.59759 0.06972I
a = 0.996380 + 0.009892I
b = 2.54720 + 0.22324I
9.03979 1.64363I 0
u = 0.45623 + 1.54965I
a = 0.661263 + 0.625703I
b = 1.65682 + 0.34057I
8.12848 10.41620I 0
u = 0.45623 1.54965I
a = 0.661263 0.625703I
b = 1.65682 0.34057I
8.12848 + 10.41620I 0
u = 0.44230 + 1.55441I
a = 0.452586 + 0.665908I
b = 1.278380 + 0.551581I
8.44819 4.12298I 0
u = 0.44230 1.55441I
a = 0.452586 0.665908I
b = 1.278380 0.551581I
8.44819 + 4.12298I 0
u = 0.65013 + 1.49886I
a = 0.807460 + 0.488365I
b = 2.23633 + 0.59408I
6.1711 + 18.1798I 0
u = 0.65013 1.49886I
a = 0.807460 0.488365I
b = 2.23633 0.59408I
6.1711 18.1798I 0
u = 0.63068 + 1.52308I
a = 0.758391 + 0.398026I
b = 2.11817 + 0.16340I
6.47295 3.67765I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.63068 1.52308I
a = 0.758391 0.398026I
b = 2.11817 0.16340I
6.47295 + 3.67765I 0
u = 0.58827 + 1.56024I
a = 0.589315 + 0.627708I
b = 1.53199 + 0.30757I
8.03425 + 2.10481I 0
u = 0.58827 1.56024I
a = 0.589315 0.627708I
b = 1.53199 0.30757I
8.03425 2.10481I 0
u = 0.123709 + 0.284274I
a = 2.26677 + 3.33699I
b = 0.77717 + 1.53806I
6.10708 3.53516I 12.00476 + 5.28845I
u = 0.123709 0.284274I
a = 2.26677 3.33699I
b = 0.77717 1.53806I
6.10708 + 3.53516I 12.00476 5.28845I
u = 0.75356 + 1.51288I
a = 0.804619 + 0.453639I
b = 2.25818 + 0.49879I
5.86495 9.79910I 0
u = 0.75356 1.51288I
a = 0.804619 0.453639I
b = 2.25818 0.49879I
5.86495 + 9.79910I 0
u = 0.47940 + 1.70250I
a = 0.440330 + 0.580484I
b = 1.267280 + 0.393537I
7.42104 3.34840I 0
u = 0.47940 1.70250I
a = 0.440330 0.580484I
b = 1.267280 0.393537I
7.42104 + 3.34840I 0
u = 0.189640 + 0.098009I
a = 0.70925 + 3.85367I
b = 0.292277 + 0.223053I
2.57773 0.05512I 1.71589 0.40383I
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.189640 0.098009I
a = 0.70925 3.85367I
b = 0.292277 0.223053I
2.57773 + 0.05512I 1.71589 + 0.40383I
u = 0.116702 + 0.159119I
a = 3.84124 0.50147I
b = 0.221670 + 0.249623I
1.82024 1.89670I 1.201931 0.229574I
u = 0.116702 0.159119I
a = 3.84124 + 0.50147I
b = 0.221670 0.249623I
1.82024 + 1.89670I 1.201931 + 0.229574I
u = 0.154022 + 0.032161I
a = 6.83770 2.10703I
b = 0.496860 0.127523I
1.16653 + 4.65668I 2.43280 9.33729I
u = 0.154022 0.032161I
a = 6.83770 + 2.10703I
b = 0.496860 + 0.127523I
1.16653 4.65668I 2.43280 + 9.33729I
u = 0.0173862 + 0.1024220I
a = 3.52308 + 11.48830I
b = 0.051053 + 0.372396I
0.34740 6.68586I 6.46362 2.73245I
u = 0.0173862 0.1024220I
a = 3.52308 11.48830I
b = 0.051053 0.372396I
0.34740 + 6.68586I 6.46362 + 2.73245I
14
II.
I
u
2
= h2.13 × 10
23
u
33
+ 3.36 × 10
23
u
32
+ · · · + 5.16 × 10
22
b 2.20 × 10
23
, 6.93 ×
10
22
u
33
+2.64×10
22
u
32
+· · ·+5.16×10
22
a+3.18×10
22
, u
34
+2u
33
+· · ·+2u+1i
(i) Arc colorings
a
3
=
0
u
a
5
=
1
0
a
6
=
1
u
2
a
8
=
1.34393u
33
0.512395u
32
+ ··· 12.4573u 0.616527
4.13790u
33
6.52236u
32
+ ··· 0.400759u + 4.26116
a
9
=
1.34393u
33
0.512395u
32
+ ··· 12.4573u 0.616527
4.66688u
33
8.94143u
32
+ ··· 3.40774u + 2.08571
a
4
=
3.91322u
33
+ 5.67476u
32
+ ··· + 10.3439u 1.01049
3.38080u
33
+ 4.03573u
32
+ ··· 3.23725u 4.68318
a
2
=
u
u
3
+ u
a
1
=
0.998123u
33
3.76851u
32
+ ··· 13.0608u 7.33368
3.14023u
33
7.14148u
32
+ ··· + 2.06851u 1.35532
a
10
=
0.183404u
33
+ 3.57104u
32
+ ··· + 17.6908u + 8.83398
1.35293u
33
+ 3.09393u
32
+ ··· + 7.26986u + 1.08995
a
11
=
1.16953u
33
+ 0.477111u
32
+ ··· + 10.4209u + 7.74403
1.35293u
33
+ 3.09393u
32
+ ··· + 7.26986u + 1.08995
a
7
=
0.479451u
33
+ 0.899880u
32
+ ··· + 0.218271u + 1.65100
0.737763u
33
+ 0.147169u
32
+ ··· + 3.72740u + 4.35441
a
12
=
4.25646u
33
8.99857u
32
+ ··· 9.55558u 4.30653
4.51901u
33
10.9433u
32
+ ··· 9.72835u 4.50904
(ii) Obstruction class = 1
(iii) Cusp Shapes =
1017184417132236160353701
51557483245750741143535
u
33
995787018343137723263119
51557483245750741143535
u
32
+ ··· +
357111226906774138183017
10311496649150148228707
u +
1375757102345437926891128
51557483245750741143535
15
(iv) u-Polynomials at the component
16
Crossings u-Polynomials at each crossing
c
1
u
34
2u
33
+ ··· 154u + 121
c
2
u
34
2u
33
+ ··· 2u + 1
c
3
u
34
12u
32
+ ··· 5u + 3
c
4
u
34
8u
33
+ ··· + 6u + 1
c
5
u
34
+ 2u
33
+ ··· + 2u + 1
c
6
u
34
4u
32
+ ··· + 2u + 3
c
7
u
34
+ 2u
33
+ ··· 4u + 1
c
8
u
34
12u
32
+ ··· + 5u + 3
c
9
u
34
+ 11u
33
+ ··· + 9u + 1
c
10
u
34
u
32
+ ··· 4u + 1
c
11
u
34
4u
32
+ ··· + 129u + 23
c
12
u
34
11u
33
+ ··· 9u + 1
17
18
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
34
20y
33
+ ··· + 272976y + 14641
c
2
, c
5
y
34
+ 16y
33
+ ··· + 20y + 1
c
3
, c
8
y
34
24y
33
+ ··· 223y + 9
c
4
y
34
10y
33
+ ··· 2y + 1
c
6
y
34
8y
33
+ ··· + 92y + 9
c
7
y
34
12y
33
+ ··· + 4y + 1
c
9
, c
12
y
34
+ 13y
33
+ ··· + 19y + 1
c
10
y
34
2y
33
+ ··· + 12y + 1
c
11
y
34
8y
33
+ ··· + 379y + 529
19
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.756254 + 0.498379I
a = 0.291993 + 1.006350I
b = 0.547484 0.448937I
1.12596 + 2.79841I 3.88515 3.26716I
u = 0.756254 0.498379I
a = 0.291993 1.006350I
b = 0.547484 + 0.448937I
1.12596 2.79841I 3.88515 + 3.26716I
u = 0.435989 + 0.782744I
a = 0.153748 + 1.367160I
b = 0.071902 0.634116I
1.43402 3.72700I 0.10651 + 2.32700I
u = 0.435989 0.782744I
a = 0.153748 1.367160I
b = 0.071902 + 0.634116I
1.43402 + 3.72700I 0.10651 2.32700I
u = 0.430071 + 0.772069I
a = 0.490062 1.279420I
b = 0.12190 1.45417I
5.92140 + 2.34582I 9.49668 + 0.89111I
u = 0.430071 0.772069I
a = 0.490062 + 1.279420I
b = 0.12190 + 1.45417I
5.92140 2.34582I 9.49668 0.89111I
u = 0.328746 + 1.096600I
a = 1.219510 + 0.014615I
b = 1.66375 + 0.10378I
4.50794 1.26644I 1.69285 7.49476I
u = 0.328746 1.096600I
a = 1.219510 0.014615I
b = 1.66375 0.10378I
4.50794 + 1.26644I 1.69285 + 7.49476I
u = 0.552443 + 1.078510I
a = 0.499404 + 0.919217I
b = 0.410464 0.132230I
4.62883 6.29570I 10.32076 + 6.33356I
u = 0.552443 1.078510I
a = 0.499404 0.919217I
b = 0.410464 + 0.132230I
4.62883 + 6.29570I 10.32076 6.33356I
20
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.099135 + 0.767388I
a = 0.265030 + 0.753392I
b = 0.023014 1.044870I
3.71465 + 0.14717I 7.02104 + 1.33544I
u = 0.099135 0.767388I
a = 0.265030 0.753392I
b = 0.023014 + 1.044870I
3.71465 0.14717I 7.02104 1.33544I
u = 1.226020 + 0.269619I
a = 0.443645 + 0.087491I
b = 0.164775 + 0.297876I
4.20431 0.12746I 15.3819 + 0.1803I
u = 1.226020 0.269619I
a = 0.443645 0.087491I
b = 0.164775 0.297876I
4.20431 + 0.12746I 15.3819 0.1803I
u = 0.100624 + 1.290350I
a = 0.798065 0.469448I
b = 2.03678 0.49472I
5.75508 + 0.15243I 0.56414 1.40213I
u = 0.100624 1.290350I
a = 0.798065 + 0.469448I
b = 2.03678 + 0.49472I
5.75508 0.15243I 0.56414 + 1.40213I
u = 0.777021 + 1.045600I
a = 0.358329 + 0.379160I
b = 0.768082 + 0.041829I
2.15598 + 6.45215I 1.52529 11.10251I
u = 0.777021 1.045600I
a = 0.358329 0.379160I
b = 0.768082 0.041829I
2.15598 6.45215I 1.52529 + 11.10251I
u = 0.243737 + 0.629296I
a = 0.70546 1.85688I
b = 0.09948 1.92864I
4.95310 + 4.84356I 6.69974 10.40063I
u = 0.243737 0.629296I
a = 0.70546 + 1.85688I
b = 0.09948 + 1.92864I
4.95310 4.84356I 6.69974 + 10.40063I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.474951 + 0.461413I
a = 1.091470 0.544459I
b = 0.50922 + 1.38394I
4.17076 0.66154I 12.42216 0.57501I
u = 0.474951 0.461413I
a = 1.091470 + 0.544459I
b = 0.50922 1.38394I
4.17076 + 0.66154I 12.42216 + 0.57501I
u = 0.185881 + 1.371650I
a = 0.768578 0.655345I
b = 1.86428 0.88713I
4.74101 + 6.82710I 2.34073 5.29286I
u = 0.185881 1.371650I
a = 0.768578 + 0.655345I
b = 1.86428 + 0.88713I
4.74101 6.82710I 2.34073 + 5.29286I
u = 0.045359 + 1.399920I
a = 0.104107 + 1.061460I
b = 0.706910 0.416082I
1.41812 3.68945I 2.55139 + 6.84171I
u = 0.045359 1.399920I
a = 0.104107 1.061460I
b = 0.706910 + 0.416082I
1.41812 + 3.68945I 2.55139 6.84171I
u = 0.319867 + 0.495451I
a = 1.73662 + 1.07718I
b = 0.364716 0.041620I
0.21942 7.07391I 0.1459 + 15.9069I
u = 0.319867 0.495451I
a = 1.73662 1.07718I
b = 0.364716 + 0.041620I
0.21942 + 7.07391I 0.1459 15.9069I
u = 0.218399 + 0.418657I
a = 1.05429 1.31503I
b = 0.10144 + 2.64886I
2.58059 5.79109I 13.0954 + 6.4835I
u = 0.218399 0.418657I
a = 1.05429 + 1.31503I
b = 0.10144 2.64886I
2.58059 + 5.79109I 13.0954 6.4835I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.20178 + 1.57049I
a = 0.291877 + 0.331691I
b = 1.08382 + 1.26487I
3.19469 + 5.35634I 0
u = 0.20178 1.57049I
a = 0.291877 0.331691I
b = 1.08382 1.26487I
3.19469 5.35634I 0
u = 1.60652 + 0.01615I
a = 0.991589 + 0.027995I
b = 2.52208 + 0.24319I
9.02524 1.72239I 0. + 49.9380I
u = 1.60652 0.01615I
a = 0.991589 0.027995I
b = 2.52208 0.24319I
9.02524 + 1.72239I 0. 49.9380I
23
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
34
2u
33
+ ··· 154u + 121)
· (u
97
11u
96
+ ··· 374950992u + 77123381)
c
2
(u
34
2u
33
+ ··· 2u + 1)(u
97
+ u
96
+ ··· 26u + 1)
c
3
(u
34
12u
32
+ ··· 5u + 3)(u
97
u
96
+ ··· 1679u + 193)
c
4
(u
34
8u
33
+ ··· + 6u + 1)(u
97
5u
96
+ ··· + 2u + 1)
c
5
(u
34
+ 2u
33
+ ··· + 2u + 1)(u
97
+ u
96
+ ··· 26u + 1)
c
6
(u
34
4u
32
+ ··· + 2u + 3)(u
97
+ u
96
+ ··· 51516u + 41391)
c
7
(u
34
+ 2u
33
+ ··· 4u + 1)(u
97
+ 5u
96
+ ··· 340064u + 80363)
c
8
(u
34
12u
32
+ ··· + 5u + 3)(u
97
u
96
+ ··· 1679u + 193)
c
9
(u
34
+ 11u
33
+ ··· + 9u + 1)(u
97
6u
96
+ ··· + 369u + 77)
c
10
(u
34
u
32
+ ··· 4u + 1)(u
97
u
96
+ ··· 334u + 5)
c
11
(u
34
4u
32
+ ··· + 129u + 23)
· (u
97
3u
96
+ ··· + 1176280393u + 231783103)
c
12
(u
34
11u
33
+ ··· 9u + 1)(u
97
6u
96
+ ··· + 369u + 77)
24
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
34
20y
33
+ ··· + 272976y + 14641)
· (y
97
+ 19y
96
+ ··· 39629618873565244y 5948015896871161)
c
2
, c
5
(y
34
+ 16y
33
+ ··· + 20y + 1)(y
97
+ 71y
96
+ ··· 140y 1)
c
3
, c
8
(y
34
24y
33
+ ··· 223y + 9)
· (y
97
33y
96
+ ··· + 1583455y 37249)
c
4
(y
34
10y
33
+ ··· 2y + 1)(y
97
3y
96
+ ··· 282y 1)
c
6
(y
34
8y
33
+ ··· + 92y + 9)
· (y
97
+ 19y
96
+ ··· 63141732036y 1713214881)
c
7
(y
34
12y
33
+ ··· + 4y + 1)
· (y
97
45y
96
+ ··· + 204622080600y 6458211769)
c
9
, c
12
(y
34
+ 13y
33
+ ··· + 19y + 1)(y
97
+ 28y
96
+ ··· + 6185y 5929)
c
10
(y
34
2y
33
+ ··· + 12y + 1)(y
97
+ 21y
96
+ ··· 93964y 25)
c
11
(y
34
8y
33
+ ··· + 379y + 529)
· (y
97
53y
96
+ ··· + 630230524010700897y 53723406836308609)
25