12a
0586
(K12a
0586
)
A knot diagram
1
Linearized knot diagam
3 7 9 10 12 2 11 5 4 1 6 8
Solving Sequence
3,9
4 10
5,7
2 1 11 6 8 12
c
3
c
9
c
4
c
2
c
1
c
10
c
6
c
8
c
12
c
5
, c
7
, c
11
Ideals for irreducible components
2
of X
par
I
u
1
= h2.31307 × 10
165
u
121
+ 5.38073 × 10
164
u
120
+ ··· + 4.90444 × 10
165
b 6.70880 × 10
165
,
3.23704 × 10
165
u
121
2.41638 × 10
165
u
120
+ ··· + 4.90444 × 10
165
a + 1.05285 × 10
166
,
u
122
u
121
+ ··· + 14u 1i
I
u
2
= hu
20
8u
18
+ ··· + b 1, 2u
20
u
19
+ ··· + a 7, u
21
10u
19
+ ··· 7u + 1i
* 2 irreducible components of dim
C
= 0, with total 143 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
= h2.31 × 10
165
u
121
+ 5.38 × 10
164
u
120
+ · · · + 4.90 × 10
165
b 6.71 ×
10
165
, 3.24 × 10
165
u
121
2.42 × 10
165
u
120
+ · · · + 4.90 × 10
165
a + 1.05 ×
10
166
, u
122
u
121
+ · · · + 14u 1i
(i) Arc colorings
a
3
=
1
0
a
9
=
0
u
a
4
=
1
u
2
a
10
=
u
u
3
+ u
a
5
=
u
2
+ 1
u
4
+ 2u
2
a
7
=
0.660022u
121
+ 0.492694u
120
+ ··· 53.1593u 2.14673
0.471629u
121
0.109712u
120
+ ··· 3.50950u + 1.36790
a
2
=
0.743016u
121
0.880764u
120
+ ··· + 5.83100u + 8.73557
0.0920455u
121
+ 0.774925u
120
+ ··· + 13.2435u 1.69094
a
1
=
0.650971u
121
0.105839u
120
+ ··· + 19.0745u + 7.04462
0.0920455u
121
+ 0.774925u
120
+ ··· + 13.2435u 1.69094
a
11
=
2.30111u
121
+ 0.0727856u
120
+ ··· 140.337u + 6.38639
0.887005u
121
+ 0.100156u
120
+ ··· + 24.1947u 0.623252
a
6
=
0.308103u
121
0.0346067u
120
+ ··· 134.651u + 11.8650
0.749272u
121
+ 1.31527u
120
+ ··· + 18.1101u 0.0215096
a
8
=
u
5
2u
3
+ u
u
7
3u
5
+ 2u
3
+ u
a
12
=
1.05192u
121
0.921213u
120
+ ··· + 24.4218u + 6.68467
0.194588u
121
+ 0.843786u
120
+ ··· + 12.8019u 1.63077
(ii) Obstruction class = 1
(iii) Cusp Shapes = 0.935769u
121
0.911728u
120
+ ··· 17.5892u 7.15303
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
122
+ 46u
121
+ ··· + 56468u + 841
c
2
, c
6
u
122
2u
121
+ ··· + 18u + 29
c
3
, c
4
, c
9
u
122
u
121
+ ··· + 14u 1
c
5
, c
11
u
122
u
121
+ ··· + 35u 1
c
7
u
122
+ 8u
121
+ ··· 298520u 40207
c
8
u
122
+ 3u
121
+ ··· 10052u + 949
c
10
u
122
20u
121
+ ··· 18800u + 1457
c
12
u
122
2u
121
+ ··· 1232502u 100871
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
122
+ 70y
121
+ ··· 130799392y + 707281
c
2
, c
6
y
122
46y
121
+ ··· 56468y + 841
c
3
, c
4
, c
9
y
122
105y
121
+ ··· + 116y + 1
c
5
, c
11
y
122
+ 99y
121
+ ··· + 173y + 1
c
7
y
122
+ 34y
121
+ ··· + 9443298764y + 1616602849
c
8
y
122
+ 59y
121
+ ··· + 89191938y + 900601
c
10
y
122
+ 18y
121
+ ··· 67920452y + 2122849
c
12
y
122
+ 30y
121
+ ··· + 188566629184y + 10174958641
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.234555 + 0.988031I
a = 0.92156 + 1.12342I
b = 0.872223 0.630867I
5.72527 1.28507I 0
u = 0.234555 0.988031I
a = 0.92156 1.12342I
b = 0.872223 + 0.630867I
5.72527 + 1.28507I 0
u = 0.760590 + 0.674896I
a = 0.316027 + 0.926892I
b = 0.686502 0.641692I
4.42128 1.94594I 0
u = 0.760590 0.674896I
a = 0.316027 0.926892I
b = 0.686502 + 0.641692I
4.42128 + 1.94594I 0
u = 0.322630 + 0.970146I
a = 0.10806 + 1.82890I
b = 0.828609 0.630177I
5.86251 3.65151I 0
u = 0.322630 0.970146I
a = 0.10806 1.82890I
b = 0.828609 + 0.630177I
5.86251 + 3.65151I 0
u = 0.214504 + 0.861105I
a = 0.44544 2.29325I
b = 1.099800 + 0.728566I
6.9239 + 14.0853I 0
u = 0.214504 0.861105I
a = 0.44544 + 2.29325I
b = 1.099800 0.728566I
6.9239 14.0853I 0
u = 1.001190 + 0.502220I
a = 0.467524 0.781643I
b = 1.068540 + 0.711550I
4.50697 9.26659I 0
u = 1.001190 0.502220I
a = 0.467524 + 0.781643I
b = 1.068540 0.711550I
4.50697 + 9.26659I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.030580 + 0.445182I
a = 0.13785 1.45127I
b = 0.610203 + 0.880621I
5.91876 + 3.36739I 0
u = 1.030580 0.445182I
a = 0.13785 + 1.45127I
b = 0.610203 0.880621I
5.91876 3.36739I 0
u = 1.107230 + 0.202197I
a = 0.353996 0.891172I
b = 0.690022 + 0.709843I
0.251889 + 0.777032I 0
u = 1.107230 0.202197I
a = 0.353996 + 0.891172I
b = 0.690022 0.709843I
0.251889 0.777032I 0
u = 0.915379 + 0.675967I
a = 0.02342 + 1.50127I
b = 0.959430 0.636264I
3.60956 + 6.96571I 0
u = 0.915379 0.675967I
a = 0.02342 1.50127I
b = 0.959430 + 0.636264I
3.60956 6.96571I 0
u = 0.186110 + 0.839501I
a = 1.18588 1.51108I
b = 0.588144 + 0.942203I
8.51107 7.96464I 0
u = 0.186110 0.839501I
a = 1.18588 + 1.51108I
b = 0.588144 0.942203I
8.51107 + 7.96464I 0
u = 1.137060 + 0.083755I
a = 0.340810 1.362340I
b = 0.970198 + 0.697036I
0.52167 + 4.61172I 0
u = 1.137060 0.083755I
a = 0.340810 + 1.362340I
b = 0.970198 0.697036I
0.52167 4.61172I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.113200 + 0.350252I
a = 0.316835 + 0.134474I
b = 0.792717 + 0.032554I
0.01080 + 2.42638I 0
u = 1.113200 0.350252I
a = 0.316835 0.134474I
b = 0.792717 0.032554I
0.01080 2.42638I 0
u = 1.153350 + 0.243735I
a = 0.366981 + 1.183590I
b = 0.801289 0.738462I
0.16714 4.78859I 0
u = 1.153350 0.243735I
a = 0.366981 1.183590I
b = 0.801289 + 0.738462I
0.16714 + 4.78859I 0
u = 0.099249 + 0.797317I
a = 0.716625 + 0.713497I
b = 0.620262 0.047717I
3.11143 + 1.77129I 12.00000 3.74305I
u = 0.099249 0.797317I
a = 0.716625 0.713497I
b = 0.620262 + 0.047717I
3.11143 1.77129I 12.00000 + 3.74305I
u = 0.724566 + 0.333200I
a = 0.084913 0.920619I
b = 1.117180 0.110982I
0.93866 2.49661I 12.00000 + 2.74029I
u = 0.724566 0.333200I
a = 0.084913 + 0.920619I
b = 1.117180 + 0.110982I
0.93866 + 2.49661I 12.00000 2.74029I
u = 1.218930 + 0.045329I
a = 0.380004 + 0.484744I
b = 0.786560 0.829293I
0.047384 0.970006I 0
u = 1.218930 0.045329I
a = 0.380004 0.484744I
b = 0.786560 + 0.829293I
0.047384 + 0.970006I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.744074 + 0.182009I
a = 0.429229 0.732669I
b = 0.947133 + 0.634087I
0.40422 + 4.44938I 14.0673 4.9668I
u = 0.744074 0.182009I
a = 0.429229 + 0.732669I
b = 0.947133 0.634087I
0.40422 4.44938I 14.0673 + 4.9668I
u = 0.189284 + 0.736058I
a = 0.04393 2.54745I
b = 1.023300 + 0.644874I
1.77068 8.04690I 9.57286 + 9.37019I
u = 0.189284 0.736058I
a = 0.04393 + 2.54745I
b = 1.023300 0.644874I
1.77068 + 8.04690I 9.57286 9.37019I
u = 0.221698 + 0.720542I
a = 0.770295 + 0.907435I
b = 1.281360 0.189413I
0.84791 + 6.25400I 11.2890 8.6710I
u = 0.221698 0.720542I
a = 0.770295 0.907435I
b = 1.281360 + 0.189413I
0.84791 6.25400I 11.2890 + 8.6710I
u = 0.140582 + 0.739623I
a = 1.39916 0.87483I
b = 0.574494 + 0.702034I
3.07037 + 2.84110I 7.29913 4.46443I
u = 0.140582 0.739623I
a = 1.39916 + 0.87483I
b = 0.574494 0.702034I
3.07037 2.84110I 7.29913 + 4.46443I
u = 1.243150 + 0.100960I
a = 0.738286 0.774980I
b = 1.204120 0.528067I
1.17292 3.59071I 0
u = 1.243150 0.100960I
a = 0.738286 + 0.774980I
b = 1.204120 + 0.528067I
1.17292 + 3.59071I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.074658 + 0.742254I
a = 0.81283 + 1.26950I
b = 0.587696 0.654971I
3.04979 + 1.07688I 7.24896 3.00156I
u = 0.074658 0.742254I
a = 0.81283 1.26950I
b = 0.587696 + 0.654971I
3.04979 1.07688I 7.24896 + 3.00156I
u = 0.228245 + 0.709352I
a = 0.37252 + 2.01880I
b = 1.003610 0.619740I
1.85617 + 3.92199I 9.76878 2.82515I
u = 0.228245 0.709352I
a = 0.37252 2.01880I
b = 1.003610 + 0.619740I
1.85617 3.92199I 9.76878 + 2.82515I
u = 1.226380 + 0.265835I
a = 1.177270 + 0.321168I
b = 0.321693 1.143740I
3.59136 1.45213I 0
u = 1.226380 0.265835I
a = 1.177270 0.321168I
b = 0.321693 + 1.143740I
3.59136 + 1.45213I 0
u = 1.249820 + 0.142486I
a = 2.82499 + 0.56538I
b = 0.755633 + 0.350064I
0.762504 0.559043I 0
u = 1.249820 0.142486I
a = 2.82499 0.56538I
b = 0.755633 0.350064I
0.762504 + 0.559043I 0
u = 0.017426 + 0.740999I
a = 2.34826 1.92460I
b = 0.869803 + 0.657397I
6.22351 + 4.56633I 3.73730 6.98496I
u = 0.017426 0.740999I
a = 2.34826 + 1.92460I
b = 0.869803 0.657397I
6.22351 4.56633I 3.73730 + 6.98496I
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.26617
a = 1.31692
b = 0.525476
6.18263 0
u = 0.058524 + 0.715391I
a = 0.75668 + 2.16588I
b = 0.464647 1.129910I
7.14471 2.10096I 1.17722 + 2.65730I
u = 0.058524 0.715391I
a = 0.75668 2.16588I
b = 0.464647 + 1.129910I
7.14471 + 2.10096I 1.17722 2.65730I
u = 1.251400 + 0.304571I
a = 1.85642 0.08555I
b = 0.843838 + 0.614687I
2.41412 0.78698I 0
u = 1.251400 0.304571I
a = 1.85642 + 0.08555I
b = 0.843838 0.614687I
2.41412 + 0.78698I 0
u = 1.260920 + 0.268599I
a = 0.645813 + 0.337662I
b = 1.12107 0.86570I
1.21395 + 1.35004I 0
u = 1.260920 0.268599I
a = 0.645813 0.337662I
b = 1.12107 + 0.86570I
1.21395 1.35004I 0
u = 1.274760 + 0.275843I
a = 0.89496 1.60223I
b = 0.828740 + 0.712699I
2.37321 + 2.95488I 0
u = 1.274760 0.275843I
a = 0.89496 + 1.60223I
b = 0.828740 0.712699I
2.37321 2.95488I 0
u = 0.024434 + 0.693745I
a = 1.18639 + 2.36959I
b = 1.17157 0.81956I
5.03237 4.82256I 4.82716 + 7.18113I
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.024434 0.693745I
a = 1.18639 2.36959I
b = 1.17157 + 0.81956I
5.03237 + 4.82256I 4.82716 7.18113I
u = 0.001317 + 0.691952I
a = 0.85529 3.52300I
b = 0.835681 + 0.659362I
6.32991 + 0.54399I 3.29943 0.17721I
u = 0.001317 0.691952I
a = 0.85529 + 3.52300I
b = 0.835681 0.659362I
6.32991 0.54399I 3.29943 + 0.17721I
u = 1.280480 + 0.271970I
a = 1.44341 3.07056I
b = 0.866416 + 0.606863I
2.34431 4.02005I 0
u = 1.280480 0.271970I
a = 1.44341 + 3.07056I
b = 0.866416 0.606863I
2.34431 + 4.02005I 0
u = 1.278930 + 0.304729I
a = 0.58243 2.07900I
b = 0.885814 + 0.693929I
2.19424 8.34091I 0
u = 1.278930 0.304729I
a = 0.58243 + 2.07900I
b = 0.885814 0.693929I
2.19424 + 8.34091I 0
u = 1.291330 + 0.278909I
a = 1.05610 + 2.01348I
b = 1.22927 0.79308I
0.92503 + 8.33903I 0
u = 1.291330 0.278909I
a = 1.05610 2.01348I
b = 1.22927 + 0.79308I
0.92503 8.33903I 0
u = 0.642168 + 0.198301I
a = 0.265917 + 0.199592I
b = 0.798044 0.574498I
0.088768 0.449411I 13.05283 1.45306I
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.642168 0.198301I
a = 0.265917 0.199592I
b = 0.798044 + 0.574498I
0.088768 + 0.449411I 13.05283 + 1.45306I
u = 1.327070 + 0.137247I
a = 0.857852 0.085963I
b = 1.006020 0.206204I
5.49406 0.39217I 0
u = 1.327070 0.137247I
a = 0.857852 + 0.085963I
b = 1.006020 + 0.206204I
5.49406 + 0.39217I 0
u = 1.304730 + 0.295079I
a = 0.591703 + 1.234260I
b = 0.566057 1.150080I
2.87894 + 5.75928I 0
u = 1.304730 0.295079I
a = 0.591703 1.234260I
b = 0.566057 + 1.150080I
2.87894 5.75928I 0
u = 1.307990 + 0.288818I
a = 0.545872 + 0.387828I
b = 0.375293 0.698799I
1.24382 + 2.63179I 0
u = 1.307990 0.288818I
a = 0.545872 0.387828I
b = 0.375293 + 0.698799I
1.24382 2.63179I 0
u = 0.293912 + 0.579535I
a = 0.55904 + 1.34017I
b = 0.431291 0.009036I
3.65162 1.53173I 11.67260 + 4.52649I
u = 0.293912 0.579535I
a = 0.55904 1.34017I
b = 0.431291 + 0.009036I
3.65162 + 1.53173I 11.67260 4.52649I
u = 1.356340 + 0.002377I
a = 0.509631 0.034649I
b = 0.453652 0.267196I
5.69404 0.04855I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.356340 0.002377I
a = 0.509631 + 0.034649I
b = 0.453652 + 0.267196I
5.69404 + 0.04855I 0
u = 1.345300 + 0.250381I
a = 1.28141 + 0.84426I
b = 1.143410 + 0.068518I
6.80581 + 4.92030I 0
u = 1.345300 0.250381I
a = 1.28141 0.84426I
b = 1.143410 0.068518I
6.80581 4.92030I 0
u = 1.328260 + 0.336809I
a = 0.030301 + 0.823161I
b = 0.522814 0.039632I
1.36278 5.84823I 0
u = 1.328260 0.336809I
a = 0.030301 0.823161I
b = 0.522814 + 0.039632I
1.36278 + 5.84823I 0
u = 1.372790 + 0.115216I
a = 1.61595 1.42202I
b = 1.029850 + 0.272400I
8.54849 + 2.02896I 0
u = 1.372790 0.115216I
a = 1.61595 + 1.42202I
b = 1.029850 0.272400I
8.54849 2.02896I 0
u = 1.346710 + 0.311323I
a = 0.917348 + 0.125384I
b = 0.508217 + 0.711957I
1.61438 6.65221I 0
u = 1.346710 0.311323I
a = 0.917348 0.125384I
b = 0.508217 0.711957I
1.61438 + 6.65221I 0
u = 0.145021 + 0.596292I
a = 0.025912 + 0.660063I
b = 1.070710 + 0.023694I
2.09996 1.78711I 13.9383 + 4.1525I
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.145021 0.596292I
a = 0.025912 0.660063I
b = 1.070710 0.023694I
2.09996 + 1.78711I 13.9383 4.1525I
u = 1.371500 + 0.308022I
a = 1.38865 2.05729I
b = 1.050460 + 0.634451I
3.16511 + 11.84220I 0
u = 1.371500 0.308022I
a = 1.38865 + 2.05729I
b = 1.050460 0.634451I
3.16511 11.84220I 0
u = 1.381950 + 0.299040I
a = 0.710667 + 1.131330I
b = 1.360690 0.155764I
4.22593 9.96730I 0
u = 1.381950 0.299040I
a = 0.710667 1.131330I
b = 1.360690 + 0.155764I
4.22593 + 9.96730I 0
u = 1.39228 + 0.29608I
a = 0.89421 + 1.57092I
b = 1.099160 0.591306I
3.29441 7.59371I 0
u = 1.39228 0.29608I
a = 0.89421 1.57092I
b = 1.099160 + 0.591306I
3.29441 + 7.59371I 0
u = 1.38185 + 0.35584I
a = 1.005500 0.339688I
b = 0.563730 + 0.977366I
3.55514 + 12.26880I 0
u = 1.38185 0.35584I
a = 1.005500 + 0.339688I
b = 0.563730 0.977366I
3.55514 12.26880I 0
u = 1.43060 + 0.02201I
a = 1.40350 0.29695I
b = 0.985570 + 0.523302I
7.03783 3.96216I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.43060 0.02201I
a = 1.40350 + 0.29695I
b = 0.985570 0.523302I
7.03783 + 3.96216I 0
u = 1.44252 + 0.09911I
a = 0.082026 + 0.409806I
b = 0.360433 0.752094I
2.63233 + 4.20108I 0
u = 1.44252 0.09911I
a = 0.082026 0.409806I
b = 0.360433 + 0.752094I
2.63233 4.20108I 0
u = 1.39976 + 0.36294I
a = 0.89232 1.99894I
b = 1.123360 + 0.731271I
1.8123 18.4914I 0
u = 1.39976 0.36294I
a = 0.89232 + 1.99894I
b = 1.123360 0.731271I
1.8123 + 18.4914I 0
u = 1.42261 + 0.28681I
a = 0.818667 + 0.275420I
b = 0.746956 0.211530I
1.90761 + 4.85839I 0
u = 1.42261 0.28681I
a = 0.818667 0.275420I
b = 0.746956 + 0.211530I
1.90761 4.85839I 0
u = 1.45228 + 0.03095I
a = 1.099700 0.475549I
b = 1.213130 + 0.103574I
7.86483 + 1.62494I 0
u = 1.45228 0.03095I
a = 1.099700 + 0.475549I
b = 1.213130 0.103574I
7.86483 1.62494I 0
u = 1.39101 + 0.43159I
a = 0.595123 + 0.422615I
b = 0.803163 0.619507I
0.66548 3.77716I 0
15
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.39101 0.43159I
a = 0.595123 0.422615I
b = 0.803163 + 0.619507I
0.66548 + 3.77716I 0
u = 1.43437 + 0.41491I
a = 0.67591 + 1.70892I
b = 0.897264 0.617532I
0.36776 + 8.63967I 0
u = 1.43437 0.41491I
a = 0.67591 1.70892I
b = 0.897264 + 0.617532I
0.36776 8.63967I 0
u = 1.52152 + 0.09850I
a = 0.897523 + 0.800823I
b = 1.079230 0.601792I
4.63290 9.25180I 0
u = 1.52152 0.09850I
a = 0.897523 0.800823I
b = 1.079230 + 0.601792I
4.63290 + 9.25180I 0
u = 0.292100 + 0.301100I
a = 0.91369 3.13908I
b = 0.910526 + 0.155742I
3.27320 0.42810I 16.9385 + 10.2974I
u = 0.292100 0.301100I
a = 0.91369 + 3.13908I
b = 0.910526 0.155742I
3.27320 + 0.42810I 16.9385 10.2974I
u = 0.326047
a = 0.389959
b = 0.301962
0.523873 18.7970
u = 0.145999 + 0.108528I
a = 4.58215 + 1.75339I
b = 0.564240 + 0.697745I
3.91036 0.86023I 7.46457 + 3.39085I
u = 0.145999 0.108528I
a = 4.58215 1.75339I
b = 0.564240 0.697745I
3.91036 + 0.86023I 7.46457 3.39085I
16
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.0330393 + 0.1023890I
a = 6.81838 1.90836I
b = 1.037250 0.662214I
2.54221 + 4.42210I 9.57210 0.19279I
u = 0.0330393 0.1023890I
a = 6.81838 + 1.90836I
b = 1.037250 + 0.662214I
2.54221 4.42210I 9.57210 + 0.19279I
17
II.
I
u
2
= hu
20
8u
18
+· · ·+b1, 2u
20
u
19
+· · ·+a7, u
21
10u
19
+· · ·7u+1i
(i) Arc colorings
a
3
=
1
0
a
9
=
0
u
a
4
=
1
u
2
a
10
=
u
u
3
+ u
a
5
=
u
2
+ 1
u
4
+ 2u
2
a
7
=
2u
20
+ u
19
+ ··· + 8u + 7
u
20
+ 8u
18
+ ··· u + 1
a
2
=
u
20
+ u
19
+ ··· + 7u 7
2u
19
+ 18u
17
+ ··· 12u + 1
a
1
=
u
20
u
19
+ ··· 5u 6
2u
19
+ 18u
17
+ ··· 12u + 1
a
11
=
u
20
u
19
+ ··· 3u 7
2u
20
+ 17u
18
+ ··· + 4u 1
a
6
=
u
20
+ 9u
18
+ ··· 2u
2
+ 3
2u
20
u
19
+ ··· 5u + 1
a
8
=
u
5
2u
3
+ u
u
7
3u
5
+ 2u
3
+ u
a
12
=
u
20
u
19
+ ··· 4u 6
2u
19
+ 18u
17
+ ··· 11u + 1
(ii) Obstruction class = 1
(iii) Cusp Shapes
= 6u
20
u
19
+ 49u
18
+ 7u
17
161u
16
26u
15
+ 245u
14
+ 65u
13
108u
12
103u
11
144u
10
+ 76u
9
+ 146u
8
+ 14u
7
+ 28u
6
48u
5
35u
4
+ 6u
3
23u
2
+ 8u 9
18
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
21
9u
20
+ ··· + 9u 1
c
2
u
21
u
20
+ ··· + u 1
c
3
, c
4
u
21
10u
19
+ ··· 7u + 1
c
5
u
21
+ 12u
19
+ ··· 12u 1
c
6
u
21
+ u
20
+ ··· + u + 1
c
7
u
21
u
20
+ ··· + u 1
c
8
u
21
+ 6u
19
+ ··· 7u 1
c
9
u
21
10u
19
+ ··· 7u 1
c
10
u
21
+ 3u
20
+ ··· 3u 1
c
11
u
21
+ 12u
19
+ ··· 12u + 1
c
12
u
21
+ u
20
+ ··· + u + 1
19
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
21
+ 15y
20
+ ··· 11y 1
c
2
, c
6
y
21
9y
20
+ ··· + 9y 1
c
3
, c
4
, c
9
y
21
20y
20
+ ··· + 45y 1
c
5
, c
11
y
21
+ 24y
20
+ ··· + 108y 1
c
7
y
21
+ 3y
20
+ ··· 3y 1
c
8
y
21
+ 12y
20
+ ··· + 43y 1
c
10
y
21
y
20
+ ··· 3y 1
c
12
y
21
+ 3y
20
+ ··· 3y 1
20
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.080158 + 0.819281I
a = 0.92417 + 2.10251I
b = 0.801730 0.694815I
5.43744 + 2.72021I 5.85258 2.88441I
u = 0.080158 0.819281I
a = 0.92417 2.10251I
b = 0.801730 + 0.694815I
5.43744 2.72021I 5.85258 + 2.88441I
u = 1.197940 + 0.191741I
a = 0.444872 0.624696I
b = 0.550977 0.566678I
1.68891 + 2.22060I 8.80097 2.83222I
u = 1.197940 0.191741I
a = 0.444872 + 0.624696I
b = 0.550977 + 0.566678I
1.68891 2.22060I 8.80097 + 2.83222I
u = 1.203790 + 0.258090I
a = 1.52634 + 0.84019I
b = 0.655629 0.718143I
2.22236 + 1.09039I 9.47843 0.52625I
u = 1.203790 0.258090I
a = 1.52634 0.84019I
b = 0.655629 + 0.718143I
2.22236 1.09039I 9.47843 + 0.52625I
u = 0.279520 + 0.716124I
a = 0.004567 + 0.470314I
b = 0.649928 0.490023I
4.33403 + 0.74871I 4.95333 + 0.72657I
u = 0.279520 0.716124I
a = 0.004567 0.470314I
b = 0.649928 + 0.490023I
4.33403 0.74871I 4.95333 0.72657I
u = 1.236490 + 0.151582I
a = 0.489421 + 0.175918I
b = 1.117210 0.719710I
0.23287 + 3.04198I 10.09826 2.24720I
u = 1.236490 0.151582I
a = 0.489421 0.175918I
b = 1.117210 + 0.719710I
0.23287 3.04198I 10.09826 + 2.24720I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.28646
a = 0.642931
b = 0.717013
6.73511 26.5190
u = 1.257160 + 0.319824I
a = 0.30625 + 1.91883I
b = 0.919180 0.765143I
1.41444 6.86561I 10.38570 + 5.84031I
u = 1.257160 0.319824I
a = 0.30625 1.91883I
b = 0.919180 + 0.765143I
1.41444 + 6.86561I 10.38570 5.84031I
u = 0.277781 + 0.545491I
a = 0.27455 + 1.66102I
b = 1.082610 0.621058I
2.75769 5.29661I 7.07327 + 8.30022I
u = 0.277781 0.545491I
a = 0.27455 1.66102I
b = 1.082610 + 0.621058I
2.75769 + 5.29661I 7.07327 8.30022I
u = 1.39075
a = 1.76615
b = 1.05019
8.18419 19.7740
u = 1.39046 + 0.35637I
a = 0.0576196 0.0650527I
b = 0.659728 0.374097I
0.94531 4.82332I 10.09113 + 2.96370I
u = 1.39046 0.35637I
a = 0.0576196 + 0.0650527I
b = 0.659728 + 0.374097I
0.94531 + 4.82332I 10.09113 2.96370I
u = 1.42215 + 0.28172I
a = 0.91029 + 1.24044I
b = 1.130400 0.517462I
2.78320 + 8.55534I 11.4594 8.6819I
u = 1.42215 0.28172I
a = 0.91029 1.24044I
b = 1.130400 + 0.517462I
2.78320 8.55534I 11.4594 + 8.6819I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.147630
a = 8.16872
b = 0.861806
2.99807 8.32060
23
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
21
9u
20
+ ··· + 9u 1)(u
122
+ 46u
121
+ ··· + 56468u + 841)
c
2
(u
21
u
20
+ ··· + u 1)(u
122
2u
121
+ ··· + 18u + 29)
c
3
, c
4
(u
21
10u
19
+ ··· 7u + 1)(u
122
u
121
+ ··· + 14u 1)
c
5
(u
21
+ 12u
19
+ ··· 12u 1)(u
122
u
121
+ ··· + 35u 1)
c
6
(u
21
+ u
20
+ ··· + u + 1)(u
122
2u
121
+ ··· + 18u + 29)
c
7
(u
21
u
20
+ ··· + u 1)(u
122
+ 8u
121
+ ··· 298520u 40207)
c
8
(u
21
+ 6u
19
+ ··· 7u 1)(u
122
+ 3u
121
+ ··· 10052u + 949)
c
9
(u
21
10u
19
+ ··· 7u 1)(u
122
u
121
+ ··· + 14u 1)
c
10
(u
21
+ 3u
20
+ ··· 3u 1)(u
122
20u
121
+ ··· 18800u + 1457)
c
11
(u
21
+ 12u
19
+ ··· 12u + 1)(u
122
u
121
+ ··· + 35u 1)
c
12
(u
21
+ u
20
+ ··· + u + 1)(u
122
2u
121
+ ··· 1232502u 100871)
24
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
21
+ 15y
20
+ ··· 11y 1)
· (y
122
+ 70y
121
+ ··· 130799392y + 707281)
c
2
, c
6
(y
21
9y
20
+ ··· + 9y 1)(y
122
46y
121
+ ··· 56468y + 841)
c
3
, c
4
, c
9
(y
21
20y
20
+ ··· + 45y 1)(y
122
105y
121
+ ··· + 116y + 1)
c
5
, c
11
(y
21
+ 24y
20
+ ··· + 108y 1)(y
122
+ 99y
121
+ ··· + 173y + 1)
c
7
(y
21
+ 3y
20
+ ··· 3y 1)
· (y
122
+ 34y
121
+ ··· + 9443298764y + 1616602849)
c
8
(y
21
+ 12y
20
+ ··· + 43y 1)
· (y
122
+ 59y
121
+ ··· + 89191938y + 900601)
c
10
(y
21
y
20
+ ··· 3y 1)
· (y
122
+ 18y
121
+ ··· 67920452y + 2122849)
c
12
(y
21
+ 3y
20
+ ··· 3y 1)
· (y
122
+ 30y
121
+ ··· + 188566629184y + 10174958641)
25