11a
276
(K11a
276
)
A knot diagram
1
Linearized knot diagam
7 5 1 9 2 10 3 11 6 4 8
Solving Sequence
6,9
10
2,7
1 5 3 4 11 8
c
9
c
6
c
1
c
5
c
2
c
4
c
10
c
8
c
3
, c
7
, c
11
Ideals for irreducible components
2
of X
par
I
u
1
= h−6.63399 × 10
307
u
102
1.76777 × 10
308
u
101
+ ··· + 4.99508 × 10
308
b 1.10340 × 10
310
,
1.30225 × 10
312
u
102
4.26703 × 10
312
u
101
+ ··· + 9.25589 × 10
311
a 2.15727 × 10
314
,
u
103
+ 4u
102
+ ··· + 469u + 109i
I
u
2
= h425805u
22
+ 807010u
21
+ ··· + 75671b 868327,
637990u
22
+ 1114149u
21
+ ··· + 75671a 1825552, u
23
+ u
22
+ ··· u + 1i
* 2 irreducible components of dim
C
= 0, with total 126 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−6.63 × 10
307
u
102
1.77 × 10
308
u
101
+ · · · + 5.00 × 10
308
b 1.10 ×
10
310
, 1.30 × 10
312
u
102
4.27 × 10
312
u
101
+ · · · + 9.26 × 10
311
a 2.16 ×
10
314
, u
103
+ 4u
102
+ · · · + 469u + 109i
(i) Arc colorings
a
6
=
0
u
a
9
=
1
0
a
10
=
1
u
2
a
2
=
1.40695u
102
+ 4.61007u
101
+ ··· + 669.071u + 233.070
0.132810u
102
+ 0.353902u
101
+ ··· + 73.4026u + 22.0898
a
7
=
u
u
3
+ u
a
1
=
1.87065u
102
+ 6.06248u
101
+ ··· + 892.642u + 307.136
0.0468750u
102
0.221872u
101
+ ··· 11.9894u 8.11502
a
5
=
1.36603u
102
+ 4.42797u
101
+ ··· + 693.873u + 231.792
1.58180u
102
5.10772u
101
+ ··· 663.580u 223.501
a
3
=
1.21417u
102
+ 3.86488u
101
+ ··· + 592.926u + 185.516
0.285401u
102
0.925876u
101
+ ··· 159.269u 55.0124
a
4
=
0.215772u
102
0.679745u
101
+ ··· + 30.2932u + 8.29123
1.58180u
102
5.10772u
101
+ ··· 663.580u 223.501
a
11
=
1.06595u
102
3.65972u
101
+ ··· 348.557u 134.481
0.221450u
102
+ 0.663808u
101
+ ··· + 175.345u + 53.4208
a
8
=
0.892276u
102
+ 2.72947u
101
+ ··· + 475.525u + 146.323
0.0338094u
102
+ 0.114168u
101
+ ··· 50.4001u 16.4134
a
8
=
0.892276u
102
+ 2.72947u
101
+ ··· + 475.525u + 146.323
0.0338094u
102
+ 0.114168u
101
+ ··· 50.4001u 16.4134
(ii) Obstruction class = 1
(iii) Cusp Shapes = 1.28824u
102
4.05511u
101
+ ··· 372.365u 118.415
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
103
+ u
102
+ ··· 35693u + 3817
c
2
, c
5
u
103
+ 7u
102
+ ··· 488u + 403
c
3
u
103
8u
102
+ ··· 52u + 8
c
4
u
103
u
102
+ ··· + 257024u + 34816
c
6
, c
9
u
103
+ 4u
102
+ ··· + 469u + 109
c
7
u
103
u
102
+ ··· 6340u + 2537
c
8
, c
11
u
103
+ 5u
102
+ ··· + 44u + 1
c
10
u
103
+ 2u
102
+ ··· + 366u + 343
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
103
+ 17y
102
+ ··· 648571579y 14569489
c
2
, c
5
y
103
+ 53y
102
+ ··· 6001908y 162409
c
3
y
103
16y
102
+ ··· + 1424y 64
c
4
y
103
23y
102
+ ··· 61678288896y 1212153856
c
6
, c
9
y
103
56y
102
+ ··· + 439051y 11881
c
7
y
103
17y
102
+ ··· + 318453760y 6436369
c
8
, c
11
y
103
+ 75y
102
+ ··· + 218y 1
c
10
y
103
22y
102
+ ··· 423762y 117649
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.836526 + 0.521144I
a = 0.985823 0.669717I
b = 1.50275 + 0.04934I
4.06422 1.55716I 0
u = 0.836526 0.521144I
a = 0.985823 + 0.669717I
b = 1.50275 0.04934I
4.06422 + 1.55716I 0
u = 0.993660 + 0.225274I
a = 1.061870 0.596347I
b = 0.401587 + 0.125535I
3.45329 0.72831I 0
u = 0.993660 0.225274I
a = 1.061870 + 0.596347I
b = 0.401587 0.125535I
3.45329 + 0.72831I 0
u = 0.596338 + 0.760820I
a = 1.104950 + 0.053850I
b = 1.69790 0.01032I
1.79270 + 5.83133I 0
u = 0.596338 0.760820I
a = 1.104950 0.053850I
b = 1.69790 + 0.01032I
1.79270 5.83133I 0
u = 0.990596 + 0.302063I
a = 1.228230 0.676620I
b = 0.301914 + 0.719171I
6.78852 + 0.94980I 0
u = 0.990596 0.302063I
a = 1.228230 + 0.676620I
b = 0.301914 0.719171I
6.78852 0.94980I 0
u = 0.859460 + 0.434428I
a = 0.870257 1.037170I
b = 1.400350 + 0.152499I
0.99501 2.77150I 0
u = 0.859460 0.434428I
a = 0.870257 + 1.037170I
b = 1.400350 0.152499I
0.99501 + 2.77150I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.008990 + 0.333497I
a = 0.587893 0.996855I
b = 0.421890 + 0.300714I
4.90999 + 1.62359I 0
u = 1.008990 0.333497I
a = 0.587893 + 0.996855I
b = 0.421890 0.300714I
4.90999 1.62359I 0
u = 1.056400 + 0.118838I
a = 1.320910 0.499770I
b = 0.282188 0.306999I
6.86537 + 0.18608I 0
u = 1.056400 0.118838I
a = 1.320910 + 0.499770I
b = 0.282188 + 0.306999I
6.86537 0.18608I 0
u = 0.511134 + 0.942278I
a = 0.510309 + 0.785824I
b = 0.728221 + 0.240175I
1.43885 + 1.18607I 0
u = 0.511134 0.942278I
a = 0.510309 0.785824I
b = 0.728221 0.240175I
1.43885 1.18607I 0
u = 0.109315 + 1.067490I
a = 1.044520 0.288762I
b = 1.57761 + 0.30682I
2.96478 + 2.48304I 0
u = 0.109315 1.067490I
a = 1.044520 + 0.288762I
b = 1.57761 0.30682I
2.96478 2.48304I 0
u = 0.937699 + 0.556938I
a = 1.011270 + 0.137655I
b = 1.39291 + 1.14364I
5.15763 4.84349I 0
u = 0.937699 0.556938I
a = 1.011270 0.137655I
b = 1.39291 1.14364I
5.15763 + 4.84349I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.339610 + 0.817318I
a = 1.330100 + 0.155899I
b = 0.950681 + 1.002080I
0.89894 3.65454I 0
u = 0.339610 0.817318I
a = 1.330100 0.155899I
b = 0.950681 1.002080I
0.89894 + 3.65454I 0
u = 0.349145 + 1.075030I
a = 0.568975 + 0.272748I
b = 1.65574 + 0.67973I
1.62245 + 2.60387I 0
u = 0.349145 1.075030I
a = 0.568975 0.272748I
b = 1.65574 0.67973I
1.62245 2.60387I 0
u = 1.098200 + 0.303797I
a = 0.529365 + 0.760181I
b = 1.68166 0.68588I
1.50077 + 3.70830I 0
u = 1.098200 0.303797I
a = 0.529365 0.760181I
b = 1.68166 + 0.68588I
1.50077 3.70830I 0
u = 1.063430 + 0.415070I
a = 0.731892 + 0.899330I
b = 2.15499 + 0.13134I
0.28023 8.17446I 0
u = 1.063430 0.415070I
a = 0.731892 0.899330I
b = 2.15499 0.13134I
0.28023 + 8.17446I 0
u = 0.843079 + 0.004461I
a = 0.94258 1.29640I
b = 1.020810 0.804279I
3.90048 + 2.86379I 12.70957 3.37032I
u = 0.843079 0.004461I
a = 0.94258 + 1.29640I
b = 1.020810 + 0.804279I
3.90048 2.86379I 12.70957 + 3.37032I
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.689090 + 0.465253I
a = 0.78192 + 1.48139I
b = 0.629855 + 0.656777I
4.53262 2.55951I 0. + 5.41774I
u = 0.689090 0.465253I
a = 0.78192 1.48139I
b = 0.629855 0.656777I
4.53262 + 2.55951I 0. 5.41774I
u = 0.769786 + 0.307928I
a = 0.75555 + 1.87167I
b = 0.724465 + 0.765281I
1.44846 + 6.07423I 8.51983 8.95436I
u = 0.769786 0.307928I
a = 0.75555 1.87167I
b = 0.724465 0.765281I
1.44846 6.07423I 8.51983 + 8.95436I
u = 1.122930 + 0.341047I
a = 0.446173 0.391470I
b = 0.213672 0.213557I
1.62676 + 1.19848I 0
u = 1.122930 0.341047I
a = 0.446173 + 0.391470I
b = 0.213672 + 0.213557I
1.62676 1.19848I 0
u = 1.140180 + 0.372827I
a = 0.604590 0.755206I
b = 1.91092 1.75877I
5.82282 8.40734I 0
u = 1.140180 0.372827I
a = 0.604590 + 0.755206I
b = 1.91092 + 1.75877I
5.82282 + 8.40734I 0
u = 1.026990 + 0.626258I
a = 0.231968 0.570644I
b = 1.72440 + 0.28794I
0.98951 1.68305I 0
u = 1.026990 0.626258I
a = 0.231968 + 0.570644I
b = 1.72440 0.28794I
0.98951 + 1.68305I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.402294 + 0.678247I
a = 0.93978 1.32938I
b = 1.48153 + 0.09132I
1.22583 3.66754I 9.11449 + 4.85815I
u = 0.402294 0.678247I
a = 0.93978 + 1.32938I
b = 1.48153 0.09132I
1.22583 + 3.66754I 9.11449 4.85815I
u = 1.189940 + 0.245612I
a = 0.883135 + 0.115093I
b = 0.190686 0.130746I
5.91342 3.60860I 0
u = 1.189940 0.245612I
a = 0.883135 0.115093I
b = 0.190686 + 0.130746I
5.91342 + 3.60860I 0
u = 0.052145 + 0.782484I
a = 1.50194 0.43540I
b = 1.232120 + 0.323710I
2.77716 + 2.41448I 4.53664 0.91348I
u = 0.052145 0.782484I
a = 1.50194 + 0.43540I
b = 1.232120 0.323710I
2.77716 2.41448I 4.53664 + 0.91348I
u = 1.090480 + 0.551048I
a = 1.055870 + 0.721445I
b = 1.95862 + 1.14773I
3.25503 + 8.43750I 0
u = 1.090480 0.551048I
a = 1.055870 0.721445I
b = 1.95862 1.14773I
3.25503 8.43750I 0
u = 0.321016 + 1.182120I
a = 0.816921 + 0.677320I
b = 1.66328 0.04493I
0.49197 11.78540I 0
u = 0.321016 1.182120I
a = 0.816921 0.677320I
b = 1.66328 + 0.04493I
0.49197 + 11.78540I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.096860 + 0.556302I
a = 0.397651 0.643161I
b = 1.74397 0.16687I
0.17581 + 2.44610I 0
u = 1.096860 0.556302I
a = 0.397651 + 0.643161I
b = 1.74397 + 0.16687I
0.17581 2.44610I 0
u = 1.206520 + 0.374371I
a = 0.510833 0.633514I
b = 1.70086 1.25903I
2.24342 + 2.29276I 0
u = 1.206520 0.374371I
a = 0.510833 + 0.633514I
b = 1.70086 + 1.25903I
2.24342 2.29276I 0
u = 0.100398 + 0.728114I
a = 0.369502 + 1.030620I
b = 1.090540 0.334120I
3.43026 6.84438I 9.15397 + 4.49126I
u = 0.100398 0.728114I
a = 0.369502 1.030620I
b = 1.090540 + 0.334120I
3.43026 + 6.84438I 9.15397 4.49126I
u = 0.730778 + 0.024594I
a = 0.399238 1.036930I
b = 2.04057 0.63998I
0.633867 + 0.803768I 7.63171 + 0.92685I
u = 0.730778 0.024594I
a = 0.399238 + 1.036930I
b = 2.04057 + 0.63998I
0.633867 0.803768I 7.63171 0.92685I
u = 0.355810 + 1.220390I
a = 0.732143 + 0.582141I
b = 1.59753 + 0.19599I
4.14010 + 5.70398I 0
u = 0.355810 1.220390I
a = 0.732143 0.582141I
b = 1.59753 0.19599I
4.14010 5.70398I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.168290 + 0.508172I
a = 0.854222 + 0.727442I
b = 1.64945 + 0.79028I
0.30412 7.10088I 0
u = 1.168290 0.508172I
a = 0.854222 0.727442I
b = 1.64945 0.79028I
0.30412 + 7.10088I 0
u = 1.182880 + 0.489928I
a = 0.619090 + 0.541895I
b = 0.230254 0.078235I
1.60861 6.49346I 0
u = 1.182880 0.489928I
a = 0.619090 0.541895I
b = 0.230254 + 0.078235I
1.60861 + 6.49346I 0
u = 0.480657 + 0.534207I
a = 0.339079 + 0.353240I
b = 0.232339 + 0.496764I
1.05237 + 1.81935I 6.00348 3.96676I
u = 0.480657 0.534207I
a = 0.339079 0.353240I
b = 0.232339 0.496764I
1.05237 1.81935I 6.00348 + 3.96676I
u = 1.183850 + 0.498766I
a = 0.782554 + 0.650321I
b = 0.038507 0.250979I
6.51949 + 11.45360I 0
u = 1.183850 0.498766I
a = 0.782554 0.650321I
b = 0.038507 + 0.250979I
6.51949 11.45360I 0
u = 1.218530 + 0.411280I
a = 0.596314 0.505551I
b = 1.20991 1.49840I
7.13489 + 2.71411I 0
u = 1.218530 0.411280I
a = 0.596314 + 0.505551I
b = 1.20991 + 1.49840I
7.13489 2.71411I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.106860 + 0.693628I
a = 0.154203 + 0.682438I
b = 0.725781 + 0.104715I
1.49461 + 1.97845I 4.28245 4.91364I
u = 0.106860 0.693628I
a = 0.154203 0.682438I
b = 0.725781 0.104715I
1.49461 1.97845I 4.28245 + 4.91364I
u = 1.289100 + 0.419570I
a = 0.853267 + 0.726222I
b = 1.042190 + 0.763261I
3.84070 + 7.79723I 0
u = 1.289100 0.419570I
a = 0.853267 0.726222I
b = 1.042190 0.763261I
3.84070 7.79723I 0
u = 0.501822 + 0.395796I
a = 1.07177 1.98688I
b = 1.18109 0.94964I
2.05671 + 4.61879I 1.72164 0.99130I
u = 0.501822 0.395796I
a = 1.07177 + 1.98688I
b = 1.18109 + 0.94964I
2.05671 4.61879I 1.72164 + 0.99130I
u = 0.625537 + 0.127848I
a = 0.12337 2.08179I
b = 0.17077 1.57240I
3.37647 1.41965I 6.14080 6.15322I
u = 0.625537 0.127848I
a = 0.12337 + 2.08179I
b = 0.17077 + 1.57240I
3.37647 + 1.41965I 6.14080 + 6.15322I
u = 1.161250 + 0.781946I
a = 0.714807 + 0.479535I
b = 1.61962 + 1.15868I
0.75621 + 5.36777I 0
u = 1.161250 0.781946I
a = 0.714807 0.479535I
b = 1.61962 1.15868I
0.75621 5.36777I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.30967 + 0.55909I
a = 0.254406 + 0.668630I
b = 0.088899 + 0.527247I
4.11139 + 0.22883I 0
u = 1.30967 0.55909I
a = 0.254406 0.668630I
b = 0.088899 0.527247I
4.11139 0.22883I 0
u = 0.568954 + 0.051702I
a = 0.010636 + 0.939943I
b = 2.60576 0.00022I
3.29751 + 5.91017I 8.26846 + 1.15510I
u = 0.568954 0.051702I
a = 0.010636 0.939943I
b = 2.60576 + 0.00022I
3.29751 5.91017I 8.26846 1.15510I
u = 1.42208 + 0.23628I
a = 0.205088 + 0.391811I
b = 0.097993 0.452119I
7.70780 4.93574I 0
u = 1.42208 0.23628I
a = 0.205088 0.391811I
b = 0.097993 + 0.452119I
7.70780 + 4.93574I 0
u = 1.28561 + 0.68101I
a = 0.853011 0.554546I
b = 1.91955 1.09572I
3.5615 + 18.3556I 0
u = 1.28561 0.68101I
a = 0.853011 + 0.554546I
b = 1.91955 + 1.09572I
3.5615 18.3556I 0
u = 0.69776 + 1.28329I
a = 0.525833 0.411533I
b = 1.66462 0.25778I
2.46400 + 1.88919I 0
u = 0.69776 1.28329I
a = 0.525833 + 0.411533I
b = 1.66462 + 0.25778I
2.46400 1.88919I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.29542 + 0.68768I
a = 0.773963 0.522788I
b = 1.92236 0.96916I
1.07559 12.41720I 0
u = 1.29542 0.68768I
a = 0.773963 + 0.522788I
b = 1.92236 + 0.96916I
1.07559 + 12.41720I 0
u = 1.46675 + 0.10797I
a = 0.203099 + 0.476024I
b = 0.381772 + 0.176585I
3.16691 0.95888I 0
u = 1.46675 0.10797I
a = 0.203099 0.476024I
b = 0.381772 0.176585I
3.16691 + 0.95888I 0
u = 1.32817 + 0.64795I
a = 0.696162 + 0.676195I
b = 1.46478 + 1.19103I
0.82407 8.70596I 0
u = 1.32817 0.64795I
a = 0.696162 0.676195I
b = 1.46478 1.19103I
0.82407 + 8.70596I 0
u = 1.27034 + 0.79509I
a = 0.711267 0.317864I
b = 1.80415 0.71320I
3.38380 + 5.47099I 0
u = 1.27034 0.79509I
a = 0.711267 + 0.317864I
b = 1.80415 + 0.71320I
3.38380 5.47099I 0
u = 0.222265 + 0.414714I
a = 0.18402 1.79342I
b = 0.512831 + 0.591648I
3.77648 + 1.13028I 11.93912 1.05833I
u = 0.222265 0.414714I
a = 0.18402 + 1.79342I
b = 0.512831 0.591648I
3.77648 1.13028I 11.93912 + 1.05833I
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.60795 + 0.13510I
a = 0.206613 + 0.492939I
b = 0.087635 + 0.380931I
7.53811 + 6.57319I 0
u = 1.60795 0.13510I
a = 0.206613 0.492939I
b = 0.087635 0.380931I
7.53811 6.57319I 0
u = 0.273696
a = 1.49428
b = 0.344561
0.749139 13.7710
15
II. I
u
2
= h4.26 × 10
5
u
22
+ 8.07 × 10
5
u
21
+ · · · + 7.57 × 10
4
b 8.68 × 10
5
, 6.38 ×
10
5
u
22
+ 1.11 × 10
6
u
21
+ · · · + 7.57 × 10
4
a 1.83 × 10
6
, u
23
+ u
22
+ · · · u + 1i
(i) Arc colorings
a
6
=
0
u
a
9
=
1
0
a
10
=
1
u
2
a
2
=
8.43110u
22
14.7236u
21
+ ··· + 9.55038u + 24.1249
5.62706u
22
10.6647u
21
+ ··· 1.67146u + 11.4750
a
7
=
u
u
3
+ u
a
1
=
11.9377u
22
20.9171u
21
+ ··· + 11.9498u + 34.1380
2.48312u
22
5.36672u
21
+ ··· 3.25115u + 4.14875
a
5
=
10.8301u
22
20.1771u
21
+ ··· 17.1024u + 13.9789
2.88013u
22
4.50412u
21
+ ··· + 2.39475u + 7.91648
a
3
=
16.4908u
22
+ 24.5150u
21
+ ··· 28.5754u 38.5222
13.8335u
22
22.6391u
21
+ ··· + 2.11152u + 18.2975
a
4
=
13.7103u
22
24.6813u
21
+ ··· 14.7077u + 21.8954
2.88013u
22
4.50412u
21
+ ··· + 2.39475u + 7.91648
a
11
=
8.39680u
22
18.0128u
21
+ ··· 16.8915u + 13.5888
6.32147u
22
9.13635u
21
+ ··· + 11.4126u + 15.3347
a
8
=
22.4258u
22
+ 36.9455u
21
+ ··· 13.6351u 40.7200
6.19350u
22
+ 9.24305u
21
+ ··· 8.90597u 13.5198
a
8
=
22.4258u
22
+ 36.9455u
21
+ ··· 13.6351u 40.7200
6.19350u
22
+ 9.24305u
21
+ ··· 8.90597u 13.5198
(ii) Obstruction class = 1
(iii) Cusp Shapes =
3714020
75671
u
22
4573163
75671
u
21
+ ··· +
7421079
75671
u +
5642156
75671
16
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
23
+ 2u
21
+ ··· + 15u + 7
c
2
u
23
8u
22
+ ··· + 4u 1
c
3
u
23
+ 3u
22
+ ··· + 4u + 1
c
4
u
23
+ 6u
20
+ ··· + 3u 7
c
5
u
23
+ 8u
22
+ ··· + 4u + 1
c
6
u
23
u
22
+ ··· u 1
c
7
u
23
u
21
+ ··· + 4u 1
c
8
u
23
+ 2u
22
+ ··· 6u 1
c
9
u
23
+ u
22
+ ··· u + 1
c
10
u
23
+ u
22
+ ··· + u
2
1
c
11
u
23
2u
22
+ ··· 6u + 1
17
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
23
+ 4y
22
+ ··· 55y 49
c
2
, c
5
y
23
+ 12y
22
+ ··· 20y 1
c
3
y
23
9y
22
+ ··· 6y 1
c
4
y
23
+ 6y
21
+ ··· + 191y 49
c
6
, c
9
y
23
13y
22
+ ··· + 19y 1
c
7
y
23
2y
22
+ ··· + 20y 1
c
8
, c
11
y
23
+ 18y
22
+ ··· + 2y 1
c
10
y
23
11y
22
+ ··· + 2y 1
18
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.943434 + 0.263211I
a = 1.43599 0.63189I
b = 0.363534 + 0.388836I
6.19249 1.08021I 7.69289 + 6.14791I
u = 0.943434 0.263211I
a = 1.43599 + 0.63189I
b = 0.363534 0.388836I
6.19249 + 1.08021I 7.69289 6.14791I
u = 0.940585 + 0.485041I
a = 0.394246 0.629144I
b = 1.94942 + 0.19915I
1.08785 + 2.06017I 3.20695 2.61947I
u = 0.940585 0.485041I
a = 0.394246 + 0.629144I
b = 1.94942 0.19915I
1.08785 2.06017I 3.20695 + 2.61947I
u = 0.327032 + 1.095140I
a = 0.978412 + 0.127508I
b = 1.47458 + 0.55621I
3.01480 + 3.49113I 0.56270 8.28702I
u = 0.327032 1.095140I
a = 0.978412 0.127508I
b = 1.47458 0.55621I
3.01480 3.49113I 0.56270 + 8.28702I
u = 1.15270
a = 0.675521
b = 0.483652
3.56069 10.8570
u = 0.565856 + 1.036780I
a = 0.517614 0.406082I
b = 1.86373 0.43547I
1.64013 + 2.16694I 5.84411 + 2.66864I
u = 0.565856 1.036780I
a = 0.517614 + 0.406082I
b = 1.86373 + 0.43547I
1.64013 2.16694I 5.84411 2.66864I
u = 1.208660 + 0.351445I
a = 0.456152 0.650182I
b = 0.228499 0.262781I
3.85538 0.13822I 11.25047 + 3.93197I
19
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.208660 0.351445I
a = 0.456152 + 0.650182I
b = 0.228499 + 0.262781I
3.85538 + 0.13822I 11.25047 3.93197I
u = 1.077960 + 0.700882I
a = 0.894195 + 0.337719I
b = 1.64141 + 0.57971I
2.85361 + 5.57806I 8.34402 8.14975I
u = 1.077960 0.700882I
a = 0.894195 0.337719I
b = 1.64141 0.57971I
2.85361 5.57806I 8.34402 + 8.14975I
u = 1.201160 + 0.497784I
a = 0.797343 + 0.825084I
b = 1.60073 + 0.96244I
1.65661 8.03479I 10.73175 + 6.86683I
u = 1.201160 0.497784I
a = 0.797343 0.825084I
b = 1.60073 0.96244I
1.65661 + 8.03479I 10.73175 6.86683I
u = 0.616353 + 0.221590I
a = 0.828049 0.644929I
b = 2.69422 0.33627I
3.39178 6.41701I 11.3847 + 13.7261I
u = 0.616353 0.221590I
a = 0.828049 + 0.644929I
b = 2.69422 + 0.33627I
3.39178 + 6.41701I 11.3847 13.7261I
u = 0.565804 + 0.138948I
a = 0.66175 + 2.10895I
b = 0.275737 + 1.340270I
3.40764 + 1.98502I 5.23404 6.40618I
u = 0.565804 0.138948I
a = 0.66175 2.10895I
b = 0.275737 1.340270I
3.40764 1.98502I 5.23404 + 6.40618I
u = 0.552708 + 0.145534I
a = 0.42634 2.64226I
b = 0.940571 0.482858I
1.36627 + 4.91196I 10.94228 4.46028I
20
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.552708 0.145534I
a = 0.42634 + 2.64226I
b = 0.940571 + 0.482858I
1.36627 4.91196I 10.94228 + 4.46028I
u = 1.44859 + 0.07041I
a = 0.062533 0.290866I
b = 0.667953 0.088864I
7.23583 5.57214I 8.37775 + 4.83062I
u = 1.44859 0.07041I
a = 0.062533 + 0.290866I
b = 0.667953 + 0.088864I
7.23583 + 5.57214I 8.37775 4.83062I
21
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
23
+ 2u
21
+ ··· + 15u + 7)(u
103
+ u
102
+ ··· 35693u + 3817)
c
2
(u
23
8u
22
+ ··· + 4u 1)(u
103
+ 7u
102
+ ··· 488u + 403)
c
3
(u
23
+ 3u
22
+ ··· + 4u + 1)(u
103
8u
102
+ ··· 52u + 8)
c
4
(u
23
+ 6u
20
+ ··· + 3u 7)(u
103
u
102
+ ··· + 257024u + 34816)
c
5
(u
23
+ 8u
22
+ ··· + 4u + 1)(u
103
+ 7u
102
+ ··· 488u + 403)
c
6
(u
23
u
22
+ ··· u 1)(u
103
+ 4u
102
+ ··· + 469u + 109)
c
7
(u
23
u
21
+ ··· + 4u 1)(u
103
u
102
+ ··· 6340u + 2537)
c
8
(u
23
+ 2u
22
+ ··· 6u 1)(u
103
+ 5u
102
+ ··· + 44u + 1)
c
9
(u
23
+ u
22
+ ··· u + 1)(u
103
+ 4u
102
+ ··· + 469u + 109)
c
10
(u
23
+ u
22
+ ··· + u
2
1)(u
103
+ 2u
102
+ ··· + 366u + 343)
c
11
(u
23
2u
22
+ ··· 6u + 1)(u
103
+ 5u
102
+ ··· + 44u + 1)
22
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
23
+ 4y
22
+ ··· 55y 49)
· (y
103
+ 17y
102
+ ··· 648571579y 14569489)
c
2
, c
5
(y
23
+ 12y
22
+ ··· 20y 1)
· (y
103
+ 53y
102
+ ··· 6001908y 162409)
c
3
(y
23
9y
22
+ ··· 6y 1)(y
103
16y
102
+ ··· + 1424y 64)
c
4
(y
23
+ 6y
21
+ ··· + 191y 49)
· (y
103
23y
102
+ ··· 61678288896y 1212153856)
c
6
, c
9
(y
23
13y
22
+ ··· + 19y 1)(y
103
56y
102
+ ··· + 439051y 11881)
c
7
(y
23
2y
22
+ ··· + 20y 1)
· (y
103
17y
102
+ ··· + 318453760y 6436369)
c
8
, c
11
(y
23
+ 18y
22
+ ··· + 2y 1)(y
103
+ 75y
102
+ ··· + 218y 1)
c
10
(y
23
11y
22
+ ··· + 2y 1)(y
103
22y
102
+ ··· 423762y 117649)
23