11a
125
(K11a
125
)
A knot diagram
1
Linearized knot diagam
5 1 10 8 2 11 3 6 7 4 9
Solving Sequence
3,10 4,7
8 5 11 6 9 1 2
c
3
c
7
c
4
c
10
c
6
c
9
c
11
c
2
c
1
, c
5
, c
8
Ideals for irreducible components
2
of X
par
I
u
1
= h1.84217 × 10
296
u
107
5.87629 × 10
295
u
106
+ ··· + 2.24754 × 10
296
b 2.30103 × 10
297
,
6.03695 × 10
298
u
107
+ 3.59147 × 10
297
u
106
+ ··· + 1.32605 × 10
298
a 3.33008 × 10
300
,
u
108
+ u
107
+ ··· 83u 59i
I
u
2
= hu
20
5u
18
+ ··· u
2
+ b, 46965u
20
+ 32047u
19
+ ··· + 721a + 56452, u
21
6u
19
+ ··· + u 1i
* 2 irreducible components of dim
C
= 0, with total 129 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
= h1.84 × 10
296
u
107
5.88 × 10
295
u
106
+ · · · + 2.25 × 10
296
b 2.30 ×
10
297
, 6.04 × 10
298
u
107
+ 3.59 × 10
297
u
106
+ · · · + 1.33 × 10
298
a 3.33 ×
10
300
, u
108
+ u
107
+ · · · 83u 59i
(i) Arc colorings
a
3
=
1
0
a
10
=
0
u
a
4
=
1
u
2
a
7
=
4.55258u
107
0.270839u
106
+ ··· + 163.283u + 251.128
0.819637u
107
+ 0.261454u
106
+ ··· + 30.2031u + 10.2380
a
8
=
5.37222u
107
0.00938531u
106
+ ··· + 193.486u + 261.366
0.819637u
107
+ 0.261454u
106
+ ··· + 30.2031u + 10.2380
a
5
=
6.62397u
107
0.205128u
106
+ ··· + 183.752u + 334.707
2.17222u
107
0.986012u
106
+ ··· 26.5179u + 197.181
a
11
=
u
u
3
+ u
a
6
=
7.55781u
107
0.253371u
106
+ ··· + 270.915u + 397.061
0.697834u
107
0.250517u
106
+ ··· 3.85380u + 42.6441
a
9
=
3.16584u
107
1.50394u
106
+ ··· 237.293u 92.9237
0.781089u
107
0.0600302u
106
+ ··· + 9.43331u 62.4900
a
1
=
7.79988u
107
+ 1.89245u
106
+ ··· 175.618u 567.148
1.58619u
107
+ 0.235617u
106
+ ··· + 70.8587u + 86.7375
a
2
=
10.8546u
107
+ 1.12089u
106
+ ··· 350.252u 602.137
2.49334u
107
+ 1.40596u
106
+ ··· + 40.6084u 227.462
a
2
=
10.8546u
107
+ 1.12089u
106
+ ··· 350.252u 602.137
2.49334u
107
+ 1.40596u
106
+ ··· + 40.6084u 227.462
(ii) Obstruction class = 1
(iii) Cusp Shapes = 0.190628u
107
+ 5.28530u
106
+ ··· + 317.291u 531.973
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
, c
5
u
108
+ 3u
107
+ ··· 10u 1
c
2
u
108
+ 49u
107
+ ··· 24u + 1
c
3
, c
10
u
108
+ u
107
+ ··· 83u 59
c
4
u
108
+ u
107
+ ··· + 9996u + 1033
c
6
u
108
+ 5u
107
+ ··· 40u + 1
c
7
u
108
+ u
107
+ ··· 47121u 5231
c
8
u
108
3u
107
+ ··· 554u 1
c
9
u
108
+ 6u
107
+ ··· + 4092u + 176
c
11
u
108
+ 11u
107
+ ··· + 776u + 56
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
, c
5
y
108
49y
107
+ ··· + 24y + 1
c
2
y
108
+ 27y
107
+ ··· + 756y + 1
c
3
, c
10
y
108
65y
107
+ ··· 78869y + 3481
c
4
y
108
5y
107
+ ··· + 107533242y + 1067089
c
6
y
108
9y
107
+ ··· 94y + 1
c
7
y
108
+ 19y
107
+ ··· + 1542196425y + 27363361
c
8
y
108
13y
107
+ ··· 315250y + 1
c
9
y
108
22y
107
+ ··· 5774384y + 30976
c
11
y
108
3y
107
+ ··· + 93344y + 3136
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.974152 + 0.261389I
a = 0.03692 + 2.17388I
b = 0.669974 + 0.537090I
0.02612 + 8.87697I 0
u = 0.974152 0.261389I
a = 0.03692 2.17388I
b = 0.669974 0.537090I
0.02612 8.87697I 0
u = 0.947317 + 0.290364I
a = 0.05100 + 1.88670I
b = 0.525756 + 0.430022I
1.77660 4.02492I 0
u = 0.947317 0.290364I
a = 0.05100 1.88670I
b = 0.525756 0.430022I
1.77660 + 4.02492I 0
u = 0.821343 + 0.549763I
a = 0.183712 0.013594I
b = 0.810583 + 0.713014I
0.01641 + 4.09614I 0
u = 0.821343 0.549763I
a = 0.183712 + 0.013594I
b = 0.810583 0.713014I
0.01641 4.09614I 0
u = 0.984228 + 0.010410I
a = 1.18874 + 0.90018I
b = 0.322699 + 1.182530I
4.12669 3.67423I 0
u = 0.984228 0.010410I
a = 1.18874 0.90018I
b = 0.322699 1.182530I
4.12669 + 3.67423I 0
u = 0.962477 + 0.079682I
a = 0.757415 0.539055I
b = 0.58214 1.44592I
1.112250 + 0.388404I 0
u = 0.962477 0.079682I
a = 0.757415 + 0.539055I
b = 0.58214 + 1.44592I
1.112250 0.388404I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.870704 + 0.410766I
a = 0.279670 + 1.209090I
b = 0.103162 + 0.129699I
1.64684 2.43797I 0
u = 0.870704 0.410766I
a = 0.279670 1.209090I
b = 0.103162 0.129699I
1.64684 + 2.43797I 0
u = 0.726983 + 0.627227I
a = 0.509551 0.049885I
b = 0.596579 + 1.069470I
0.029889 0.257369I 0
u = 0.726983 0.627227I
a = 0.509551 + 0.049885I
b = 0.596579 1.069470I
0.029889 + 0.257369I 0
u = 0.127716 + 1.038120I
a = 0.620092 + 0.238590I
b = 0.737287 + 0.208133I
3.55118 + 3.28339I 0
u = 0.127716 1.038120I
a = 0.620092 0.238590I
b = 0.737287 0.208133I
3.55118 3.28339I 0
u = 0.904734 + 0.285757I
a = 0.636986 + 0.528069I
b = 2.20932 0.22643I
0.67232 8.72797I 0
u = 0.904734 0.285757I
a = 0.636986 0.528069I
b = 2.20932 + 0.22643I
0.67232 + 8.72797I 0
u = 0.910645 + 0.192506I
a = 0.58789 + 1.78120I
b = 0.385944 + 0.804425I
2.35042 + 2.26476I 0
u = 0.910645 0.192506I
a = 0.58789 1.78120I
b = 0.385944 0.804425I
2.35042 2.26476I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.903214 + 0.219783I
a = 0.543275 + 0.336286I
b = 2.17612 0.58688I
1.86423 + 3.20245I 0
u = 0.903214 0.219783I
a = 0.543275 0.336286I
b = 2.17612 + 0.58688I
1.86423 3.20245I 0
u = 1.066670 + 0.106723I
a = 1.187770 0.127686I
b = 0.630782 0.730192I
4.84250 3.77355I 0
u = 1.066670 0.106723I
a = 1.187770 + 0.127686I
b = 0.630782 + 0.730192I
4.84250 + 3.77355I 0
u = 0.895542 + 0.603288I
a = 0.630755 + 0.940432I
b = 0.061847 0.334834I
0.85408 1.78433I 0
u = 0.895542 0.603288I
a = 0.630755 0.940432I
b = 0.061847 + 0.334834I
0.85408 + 1.78433I 0
u = 0.534951 + 0.717555I
a = 0.906959 0.057499I
b = 0.006657 + 1.274660I
0.45026 4.79181I 0
u = 0.534951 0.717555I
a = 0.906959 + 0.057499I
b = 0.006657 1.274660I
0.45026 + 4.79181I 0
u = 0.978238 + 0.528279I
a = 0.830922 0.731888I
b = 0.130929 + 1.208130I
4.29595 + 1.62915I 0
u = 0.978238 0.528279I
a = 0.830922 + 0.731888I
b = 0.130929 1.208130I
4.29595 1.62915I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.132879 + 1.112260I
a = 0.490463 + 0.469192I
b = 0.676211 0.179571I
4.46641 + 2.42852I 0
u = 0.132879 1.112260I
a = 0.490463 0.469192I
b = 0.676211 + 0.179571I
4.46641 2.42852I 0
u = 0.163742 + 1.117370I
a = 0.541417 + 0.966843I
b = 0.807554 1.027800I
0.81340 12.59150I 0
u = 0.163742 1.117370I
a = 0.541417 0.966843I
b = 0.807554 + 1.027800I
0.81340 + 12.59150I 0
u = 0.169000 + 1.121780I
a = 0.518616 + 0.885953I
b = 0.779199 0.872057I
2.97894 + 6.84382I 0
u = 0.169000 1.121780I
a = 0.518616 0.885953I
b = 0.779199 + 0.872057I
2.97894 6.84382I 0
u = 0.197636 + 1.125790I
a = 0.304167 + 0.875966I
b = 0.421882 0.817706I
3.21665 3.93627I 0
u = 0.197636 1.125790I
a = 0.304167 0.875966I
b = 0.421882 + 0.817706I
3.21665 + 3.93627I 0
u = 0.834451
a = 0.489255
b = 0.665164
1.38852 0
u = 0.398165 + 0.716767I
a = 1.019530 0.052785I
b = 0.269627 + 1.067180I
1.014240 + 0.642379I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.398165 0.716767I
a = 1.019530 + 0.052785I
b = 0.269627 1.067180I
1.014240 0.642379I 0
u = 1.120110 + 0.400495I
a = 1.256760 + 0.503964I
b = 1.32125 + 1.02155I
3.30658 4.72348I 0
u = 1.120110 0.400495I
a = 1.256760 0.503964I
b = 1.32125 1.02155I
3.30658 + 4.72348I 0
u = 1.133440 + 0.447556I
a = 1.40826 + 0.51127I
b = 1.33693 + 1.47390I
4.55602 + 8.69100I 0
u = 1.133440 0.447556I
a = 1.40826 0.51127I
b = 1.33693 1.47390I
4.55602 8.69100I 0
u = 0.735283 + 0.258478I
a = 0.131993 1.382150I
b = 0.91333 1.27864I
2.25905 0.80230I 0
u = 0.735283 0.258478I
a = 0.131993 + 1.382150I
b = 0.91333 + 1.27864I
2.25905 + 0.80230I 0
u = 1.136570 + 0.494217I
a = 1.232080 0.166947I
b = 0.27028 + 1.43055I
5.27860 5.21926I 0
u = 1.136570 0.494217I
a = 1.232080 + 0.166947I
b = 0.27028 1.43055I
5.27860 + 5.21926I 0
u = 1.194790 + 0.353430I
a = 1.217590 + 0.419263I
b = 0.797116 + 0.838560I
3.57518 4.92310I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.194790 0.353430I
a = 1.217590 0.419263I
b = 0.797116 0.838560I
3.57518 + 4.92310I 0
u = 1.073590 + 0.645480I
a = 0.696546 0.301950I
b = 0.115944 + 1.063470I
1.85031 + 2.56322I 0
u = 1.073590 0.645480I
a = 0.696546 + 0.301950I
b = 0.115944 1.063470I
1.85031 2.56322I 0
u = 1.167860 + 0.453399I
a = 1.44149 + 0.26526I
b = 0.80245 + 1.59814I
5.45176 + 2.92622I 0
u = 1.167860 0.453399I
a = 1.44149 0.26526I
b = 0.80245 1.59814I
5.45176 2.92622I 0
u = 1.240790 + 0.240630I
a = 0.534776 0.182654I
b = 1.31764 1.44251I
1.79007 + 3.25272I 0
u = 1.240790 0.240630I
a = 0.534776 + 0.182654I
b = 1.31764 + 1.44251I
1.79007 3.25272I 0
u = 0.650808 + 0.342791I
a = 0.34559 1.62139I
b = 1.19891 0.98678I
1.33081 + 5.80685I 0. 2.96583I
u = 0.650808 0.342791I
a = 0.34559 + 1.62139I
b = 1.19891 + 0.98678I
1.33081 5.80685I 0. + 2.96583I
u = 1.246090 + 0.227495I
a = 1.342510 + 0.414670I
b = 0.294925 + 0.427196I
5.57876 + 2.04823I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.246090 0.227495I
a = 1.342510 0.414670I
b = 0.294925 0.427196I
5.57876 2.04823I 0
u = 1.230250 + 0.309018I
a = 0.629731 0.227256I
b = 1.05197 1.70214I
3.85058 9.33974I 0
u = 1.230250 0.309018I
a = 0.629731 + 0.227256I
b = 1.05197 + 1.70214I
3.85058 + 9.33974I 0
u = 0.589715 + 0.333188I
a = 0.771112 0.727221I
b = 0.700623 + 0.496327I
1.78626 + 0.19440I 6.62499 2.10710I
u = 0.589715 0.333188I
a = 0.771112 + 0.727221I
b = 0.700623 0.496327I
1.78626 0.19440I 6.62499 + 2.10710I
u = 0.351167 + 0.578931I
a = 0.78828 + 1.37252I
b = 0.829992 0.595666I
0.49504 + 6.34073I 1.73992 6.59022I
u = 0.351167 0.578931I
a = 0.78828 1.37252I
b = 0.829992 + 0.595666I
0.49504 6.34073I 1.73992 + 6.59022I
u = 0.621401 + 0.199241I
a = 2.07344 0.92194I
b = 1.201380 + 0.401495I
1.06241 6.45710I 0. + 1.42723I
u = 0.621401 0.199241I
a = 2.07344 + 0.92194I
b = 1.201380 0.401495I
1.06241 + 6.45710I 0. 1.42723I
u = 0.052871 + 0.646559I
a = 0.41145 1.50671I
b = 0.382161 + 1.102240I
2.32226 + 1.24315I 7.51601 1.77666I
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.052871 0.646559I
a = 0.41145 + 1.50671I
b = 0.382161 1.102240I
2.32226 1.24315I 7.51601 + 1.77666I
u = 1.326700 + 0.305400I
a = 1.235880 + 0.564675I
b = 0.259224 + 0.925110I
5.13430 + 8.04503I 0
u = 1.326700 0.305400I
a = 1.235880 0.564675I
b = 0.259224 0.925110I
5.13430 8.04503I 0
u = 1.317900 + 0.402678I
a = 1.078710 + 0.489570I
b = 0.474582 + 1.090480I
3.99132 4.54373I 0
u = 1.317900 0.402678I
a = 1.078710 0.489570I
b = 0.474582 1.090480I
3.99132 + 4.54373I 0
u = 0.179585 + 0.579606I
a = 0.83381 1.86662I
b = 0.947899 + 0.787439I
1.83419 4.63645I 4.58372 + 7.30891I
u = 0.179585 0.579606I
a = 0.83381 + 1.86662I
b = 0.947899 0.787439I
1.83419 + 4.63645I 4.58372 7.30891I
u = 0.568576 + 0.208009I
a = 2.01454 0.40120I
b = 1.136210 + 0.244875I
2.86820 + 1.36185I 3.07135 + 2.06335I
u = 0.568576 0.208009I
a = 2.01454 + 0.40120I
b = 1.136210 0.244875I
2.86820 1.36185I 3.07135 2.06335I
u = 1.368310 + 0.298986I
a = 0.624843 0.019539I
b = 0.448426 1.103470I
8.89731 0.89969I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.368310 0.298986I
a = 0.624843 + 0.019539I
b = 0.448426 + 1.103470I
8.89731 + 0.89969I 0
u = 0.435771 + 0.408529I
a = 1.26938 + 1.01935I
b = 0.914517 0.262108I
2.65024 1.18829I 2.48161 + 2.04057I
u = 0.435771 0.408529I
a = 1.26938 1.01935I
b = 0.914517 + 0.262108I
2.65024 + 1.18829I 2.48161 2.04057I
u = 1.310200 + 0.507870I
a = 0.687774 0.140558I
b = 1.022390 0.630758I
0.17375 + 2.12643I 0
u = 1.310200 0.507870I
a = 0.687774 + 0.140558I
b = 1.022390 + 0.630758I
0.17375 2.12643I 0
u = 1.30647 + 0.56763I
a = 0.847975 0.175210I
b = 1.050390 0.899685I
0.76601 8.29993I 0
u = 1.30647 0.56763I
a = 0.847975 + 0.175210I
b = 1.050390 + 0.899685I
0.76601 + 8.29993I 0
u = 1.30666 + 0.59592I
a = 1.114890 0.225093I
b = 1.01748 1.35533I
0.60805 12.89860I 0
u = 1.30666 0.59592I
a = 1.114890 + 0.225093I
b = 1.01748 + 1.35533I
0.60805 + 12.89860I 0
u = 1.30939 + 0.59543I
a = 1.086590 0.077025I
b = 0.80339 1.23187I
6.77231 + 10.02240I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.30939 0.59543I
a = 1.086590 + 0.077025I
b = 0.80339 + 1.23187I
6.77231 10.02240I 0
u = 1.30900 + 0.59703I
a = 1.179420 0.236168I
b = 0.99652 1.46631I
2.7876 + 18.6455I 0
u = 1.30900 0.59703I
a = 1.179420 + 0.236168I
b = 0.99652 + 1.46631I
2.7876 18.6455I 0
u = 1.44914 + 0.24366I
a = 0.550715 + 0.054229I
b = 0.104588 0.667664I
2.85677 1.64370I 0
u = 1.44914 0.24366I
a = 0.550715 0.054229I
b = 0.104588 + 0.667664I
2.85677 + 1.64370I 0
u = 0.027355 + 0.526426I
a = 1.27042 1.03315I
b = 0.397552 + 0.647777I
0.10044 + 1.46604I 1.33207 4.65115I
u = 0.027355 0.526426I
a = 1.27042 + 1.03315I
b = 0.397552 0.647777I
0.10044 1.46604I 1.33207 + 4.65115I
u = 0.296819 + 0.409793I
a = 0.83453 2.24685I
b = 0.972948 + 0.114369I
0.86286 + 1.24545I 0.709038 + 0.323843I
u = 0.296819 0.409793I
a = 0.83453 + 2.24685I
b = 0.972948 0.114369I
0.86286 1.24545I 0.709038 0.323843I
u = 1.35572 + 0.64284I
a = 0.609435 + 0.254910I
b = 0.513726 + 0.977254I
0.11523 + 4.15027I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.35572 0.64284I
a = 0.609435 0.254910I
b = 0.513726 0.977254I
0.11523 4.15027I 0
u = 1.47738 + 0.29180I
a = 0.576871 + 0.099376I
b = 0.086794 0.812436I
4.87730 + 7.27293I 0
u = 1.47738 0.29180I
a = 0.576871 0.099376I
b = 0.086794 + 0.812436I
4.87730 7.27293I 0
u = 1.40109 + 0.57788I
a = 0.653418 + 0.408344I
b = 0.599849 + 1.050720I
1.23164 9.21086I 0
u = 1.40109 0.57788I
a = 0.653418 0.408344I
b = 0.599849 1.050720I
1.23164 + 9.21086I 0
u = 0.21671 + 1.52116I
a = 0.0068364 0.0753318I
b = 0.013805 + 0.393561I
4.02171 + 2.95510I 0
u = 0.21671 1.52116I
a = 0.0068364 + 0.0753318I
b = 0.013805 0.393561I
4.02171 2.95510I 0
u = 1.68133
a = 0.497549
b = 0.905522
10.1758 0
15
II. I
u
2
= hu
20
5u
18
+ · · · u
2
+ b, 46965u
20
+ 32047u
19
+ · · · + 721a +
56452, u
21
6u
19
+ · · · + u 1i
(i) Arc colorings
a
3
=
1
0
a
10
=
0
u
a
4
=
1
u
2
a
7
=
65.1387u
20
44.4480u
19
+ ··· 29.5784u 78.2968
u
20
+ 5u
18
+ ··· + 8u
3
+ u
2
a
8
=
66.1387u
20
44.4480u
19
+ ··· 29.5784u 78.2968
u
20
+ 5u
18
+ ··· + 8u
3
+ u
2
a
5
=
45.5978u
20
+ 35.4008u
19
+ ··· + 21.6227u + 70.7393
46.7642u
20
34.3384u
19
+ ··· 21.9168u 69.2954
a
11
=
u
u
3
+ u
a
6
=
83.4924u
20
55.9404u
19
+ ··· 39.7032u 99.3537
7.41331u
20
+ 5.59501u
19
+ ··· + 3.26352u + 9.56449
a
9
=
73.8960u
20
+ 47.9140u
19
+ ··· + 53.3162u + 104.277
70.2954u
20
46.7642u
19
+ ··· 43.2219u 91.2122
a
1
=
2.38974u
20
+ 0.771151u
19
+ ··· 21.2552u 13.2940
52.3856u
20
+ 34.1054u
19
+ ··· + 37.5479u + 71.3051
a
2
=
77.2302u
20
53.1637u
19
+ ··· 63.1401u 116.053
80.0361u
20
+ 55.7365u
19
+ ··· + 53.1304u + 119.237
a
2
=
77.2302u
20
53.1637u
19
+ ··· 63.1401u 116.053
80.0361u
20
+ 55.7365u
19
+ ··· + 53.1304u + 119.237
(ii) Obstruction class = 1
(iii) Cusp Shapes =
221218
721
u
20
159840
721
u
19
+ ···
126596
721
u
319747
721
16
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
21
+ 2u
20
+ ··· 2u + 1
c
2
u
21
+ 12u
20
+ ··· + 16u + 1
c
3
u
21
6u
19
+ ··· + u 1
c
4
u
21
+ 4u
19
+ ··· + 4u 1
c
5
u
21
2u
20
+ ··· 2u 1
c
6
u
21
+ 4u
20
+ ··· 2u + 1
c
7
u
21
2u
19
+ ··· u 1
c
8
u
21
10u
20
+ ··· + 14u 1
c
9
u
21
+ 11u
20
+ ··· + 13u + 1
c
10
u
21
6u
19
+ ··· + u + 1
c
11
u
21
2u
20
+ ··· + 4u + 1
17
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
, c
5
y
21
12y
20
+ ··· + 16y 1
c
2
y
21
32y
19
+ ··· + 32y 1
c
3
, c
10
y
21
12y
20
+ ··· + 17y 1
c
4
y
21
+ 8y
20
+ ··· + 10y 1
c
6
y
21
12y
20
+ ··· + 10y 1
c
7
y
21
4y
20
+ ··· 13y 1
c
8
y
21
+ 4y
20
+ ··· + 30y 1
c
9
y
21
+ 3y
20
+ ··· + 9y 1
c
11
y
21
10y
20
+ ··· + 12y 1
18
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.811779 + 0.525216I
a = 0.416139 + 0.357404I
b = 0.047757 + 0.917442I
0.03935 + 2.07134I 2.34444 4.05360I
u = 0.811779 0.525216I
a = 0.416139 0.357404I
b = 0.047757 0.917442I
0.03935 2.07134I 2.34444 + 4.05360I
u = 1.164180 + 0.407269I
a = 1.47478 + 0.24901I
b = 0.648863 + 1.098050I
4.60181 + 6.44318I 7.37974 8.53245I
u = 1.164180 0.407269I
a = 1.47478 0.24901I
b = 0.648863 1.098050I
4.60181 6.44318I 7.37974 + 8.53245I
u = 1.192030 + 0.359383I
a = 1.34557 + 0.63757I
b = 0.800423 + 1.118690I
4.47877 3.55604I 8.08226 + 2.55945I
u = 1.192030 0.359383I
a = 1.34557 0.63757I
b = 0.800423 1.118690I
4.47877 + 3.55604I 8.08226 2.55945I
u = 0.723384 + 0.071228I
a = 0.384515 + 1.232070I
b = 1.40553 + 0.44847I
2.04450 + 2.21685I 1.36797 1.77620I
u = 0.723384 0.071228I
a = 0.384515 1.232070I
b = 1.40553 0.44847I
2.04450 2.21685I 1.36797 + 1.77620I
u = 0.704084 + 0.011197I
a = 0.62546 + 1.76874I
b = 1.393860 + 0.065773I
0.56292 7.20934I 5.36435 + 8.25630I
u = 0.704084 0.011197I
a = 0.62546 1.76874I
b = 1.393860 0.065773I
0.56292 + 7.20934I 5.36435 8.25630I
19
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.360973 + 0.591606I
a = 0.18473 1.61907I
b = 0.112329 + 0.524379I
2.04047 2.71990I 4.21528 + 3.94147I
u = 0.360973 0.591606I
a = 0.18473 + 1.61907I
b = 0.112329 0.524379I
2.04047 + 2.71990I 4.21528 3.94147I
u = 1.265480 + 0.338640I
a = 0.641702 + 0.643672I
b = 0.932784 + 0.946751I
2.32920 8.44205I 5.83292 + 8.04405I
u = 1.265480 0.338640I
a = 0.641702 0.643672I
b = 0.932784 0.946751I
2.32920 + 8.44205I 5.83292 8.04405I
u = 1.284750 + 0.320553I
a = 0.534098 + 0.330108I
b = 0.989081 + 0.901960I
1.12577 + 3.02403I 1.94886 3.97151I
u = 1.284750 0.320553I
a = 0.534098 0.330108I
b = 0.989081 0.901960I
1.12577 3.02403I 1.94886 + 3.97151I
u = 0.527823 + 0.088481I
a = 0.32212 2.49639I
b = 0.696834 + 0.210590I
1.73524 + 1.16661I 7.91238 0.48584I
u = 0.527823 0.088481I
a = 0.32212 + 2.49639I
b = 0.696834 0.210590I
1.73524 1.16661I 7.91238 + 0.48584I
u = 0.19100 + 1.56011I
a = 0.072058 0.193819I
b = 0.023605 + 0.455058I
3.93251 + 3.01415I 34.7582 22.9567I
u = 0.19100 1.56011I
a = 0.072058 + 0.193819I
b = 0.023605 0.455058I
3.93251 3.01415I 34.7582 + 22.9567I
20
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.69330
a = 0.487808
b = 0.906837
10.1449 126.410
21
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
21
+ 2u
20
+ ··· 2u + 1)(u
108
+ 3u
107
+ ··· 10u 1)
c
2
(u
21
+ 12u
20
+ ··· + 16u + 1)(u
108
+ 49u
107
+ ··· 24u + 1)
c
3
(u
21
6u
19
+ ··· + u 1)(u
108
+ u
107
+ ··· 83u 59)
c
4
(u
21
+ 4u
19
+ ··· + 4u 1)(u
108
+ u
107
+ ··· + 9996u + 1033)
c
5
(u
21
2u
20
+ ··· 2u 1)(u
108
+ 3u
107
+ ··· 10u 1)
c
6
(u
21
+ 4u
20
+ ··· 2u + 1)(u
108
+ 5u
107
+ ··· 40u + 1)
c
7
(u
21
2u
19
+ ··· u 1)(u
108
+ u
107
+ ··· 47121u 5231)
c
8
(u
21
10u
20
+ ··· + 14u 1)(u
108
3u
107
+ ··· 554u 1)
c
9
(u
21
+ 11u
20
+ ··· + 13u + 1)(u
108
+ 6u
107
+ ··· + 4092u + 176)
c
10
(u
21
6u
19
+ ··· + u + 1)(u
108
+ u
107
+ ··· 83u 59)
c
11
(u
21
2u
20
+ ··· + 4u + 1)(u
108
+ 11u
107
+ ··· + 776u + 56)
22
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
, c
5
(y
21
12y
20
+ ··· + 16y 1)(y
108
49y
107
+ ··· + 24y + 1)
c
2
(y
21
32y
19
+ ··· + 32y 1)(y
108
+ 27y
107
+ ··· + 756y + 1)
c
3
, c
10
(y
21
12y
20
+ ··· + 17y 1)(y
108
65y
107
+ ··· 78869y + 3481)
c
4
(y
21
+ 8y
20
+ ··· + 10y 1)
· (y
108
5y
107
+ ··· + 107533242y + 1067089)
c
6
(y
21
12y
20
+ ··· + 10y 1)(y
108
9y
107
+ ··· 94y + 1)
c
7
(y
21
4y
20
+ ··· 13y 1)
· (y
108
+ 19y
107
+ ··· + 1542196425y + 27363361)
c
8
(y
21
+ 4y
20
+ ··· + 30y 1)(y
108
13y
107
+ ··· 315250y + 1)
c
9
(y
21
+ 3y
20
+ ··· + 9y 1)(y
108
22y
107
+ ··· 5774384y + 30976)
c
11
(y
21
10y
20
+ ··· + 12y 1)(y
108
3y
107
+ ··· + 93344y + 3136)
23