12n
0652
(K12n
0652
)
A knot diagram
1
Linearized knot diagam
3 8 10 11 1 4 2 11 7 6 8 5
Solving Sequence
3,8
2
1,5
6 7 12 11 9 4 10
c
2
c
1
c
5
c
7
c
12
c
11
c
8
c
4
c
10
c
3
, c
6
, c
9
Ideals for irreducible components
2
of X
par
I
u
1
= h−7.95566 × 10
237
u
100
6.62307 × 10
237
u
99
+ ··· + 4.78420 × 10
238
b 4.22616 × 10
240
,
5.09303 × 10
240
u
100
6.43646 × 10
240
u
99
+ ··· + 1.00947 × 10
241
a 1.17880 × 10
243
,
u
101
29u
99
+ ··· 366u 211i
I
u
2
= h−6594748663u
31
+ 11676405243u
30
+ ··· + 304614406b 9241004294,
9719505347u
31
16695825813u
30
+ ··· + 304614406a + 11648772074, u
32
u
31
+ ··· 3u + 1i
* 2 irreducible components of dim
C
= 0, with total 133 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−7.96 × 10
237
u
100
6.62 × 10
237
u
99
+ · · · + 4.78 × 10
238
b 4.23 ×
10
240
, 5.09 × 10
240
u
100
6.44 × 10
240
u
99
+ · · · + 1.01 × 10
241
a 1.18 ×
10
243
, u
101
29u
99
+ · · · 366u 211i
(i) Arc colorings
a
3
=
1
0
a
8
=
0
u
a
2
=
1
u
2
a
1
=
u
2
+ 1
u
2
a
5
=
0.504526u
100
+ 0.637610u
99
+ ··· + 220.410u + 116.774
0.166290u
100
+ 0.138436u
99
+ ··· + 298.648u + 88.3358
a
6
=
0.719768u
100
+ 0.816275u
99
+ ··· + 396.415u + 177.901
0.314263u
100
0.311027u
99
+ ··· 78.0601u 44.1993
a
7
=
u
u
3
+ u
a
12
=
0.0646741u
100
+ 0.102419u
99
+ ··· 5.30493u + 10.0598
0.709533u
100
+ 0.284808u
99
+ ··· + 376.424u + 77.2488
a
11
=
0.0646741u
100
+ 0.102419u
99
+ ··· 5.30493u + 10.0598
0.560079u
100
+ 0.146742u
99
+ ··· + 325.292u + 55.6384
a
9
=
0.574178u
100
+ 0.482635u
99
+ ··· + 367.785u + 130.977
0.0616652u
100
0.285923u
99
+ ··· 131.623u 77.5243
a
4
=
1.02386u
100
+ 0.779755u
99
+ ··· + 593.132u + 198.503
0.120196u
100
0.169073u
99
+ ··· 85.7088u 33.7270
a
10
=
0.716347u
100
+ 0.710368u
99
+ ··· + 544.466u + 211.942
0.0100619u
100
0.152637u
99
+ ··· 68.2902u 44.6114
(ii) Obstruction class = 1
(iii) Cusp Shapes = 4.64685u
100
3.26032u
99
+ ··· 3712.21u 1141.11
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
101
+ 58u
100
+ ··· + 943774u + 44521
c
2
, c
7
u
101
29u
99
+ ··· 366u 211
c
3
u
101
2u
100
+ ··· 97u + 7
c
4
u
101
+ 23u
99
+ ··· + 750579u + 306659
c
5
, c
12
u
101
16u
99
+ ··· 953u 133
c
6
u
101
u
100
+ ··· + 227u 23
c
8
, c
11
u
101
+ 15u
100
+ ··· + 3501095u + 215671
c
9
u
101
7u
100
+ ··· 1316600u + 92575
c
10
u
101
3u
100
+ ··· 790u 83
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
101
14y
100
+ ··· + 27975815430y 1982119441
c
2
, c
7
y
101
58y
100
+ ··· + 943774y 44521
c
3
y
101
10y
100
+ ··· + 155y 49
c
4
y
101
+ 46y
100
+ ··· 3797359557157y 94039742281
c
5
, c
12
y
101
32y
100
+ ··· + 823621y 17689
c
6
y
101
9y
100
+ ··· + 23423y 529
c
8
, c
11
y
101
93y
100
+ ··· + 1171525903947y 46513980241
c
9
y
101
45y
100
+ ··· + 570114040500y 8570130625
c
10
y
101
+ 11y
100
+ ··· 196936y 6889
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.820034 + 0.585292I
a = 0.033824 0.300405I
b = 0.94355 1.29230I
4.33943 + 1.14415I 0
u = 0.820034 0.585292I
a = 0.033824 + 0.300405I
b = 0.94355 + 1.29230I
4.33943 1.14415I 0
u = 0.985457 + 0.104624I
a = 0.037446 0.669943I
b = 0.726416 + 0.509050I
3.62929 2.83489I 0
u = 0.985457 0.104624I
a = 0.037446 + 0.669943I
b = 0.726416 0.509050I
3.62929 + 2.83489I 0
u = 0.530981 + 0.810422I
a = 1.61271 1.19757I
b = 0.532324 0.580869I
2.63257 + 3.84014I 0
u = 0.530981 0.810422I
a = 1.61271 + 1.19757I
b = 0.532324 + 0.580869I
2.63257 3.84014I 0
u = 1.027270 + 0.217643I
a = 0.340119 1.308040I
b = 0.243063 1.221120I
7.61850 0.65923I 0
u = 1.027270 0.217643I
a = 0.340119 + 1.308040I
b = 0.243063 + 1.221120I
7.61850 + 0.65923I 0
u = 0.112192 + 0.938796I
a = 1.95188 0.30689I
b = 0.468388 + 0.284137I
1.67442 1.04305I 0
u = 0.112192 0.938796I
a = 1.95188 + 0.30689I
b = 0.468388 0.284137I
1.67442 + 1.04305I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.172731 + 1.067630I
a = 1.47812 0.48759I
b = 0.295965 0.883833I
0.38324 + 3.98606I 0
u = 0.172731 1.067630I
a = 1.47812 + 0.48759I
b = 0.295965 + 0.883833I
0.38324 3.98606I 0
u = 0.422357 + 0.996136I
a = 1.88932 + 0.35696I
b = 0.689307 + 1.005280I
2.01850 3.05243I 0
u = 0.422357 0.996136I
a = 1.88932 0.35696I
b = 0.689307 1.005280I
2.01850 + 3.05243I 0
u = 0.832349 + 0.372279I
a = 0.139598 + 1.207060I
b = 0.0679636 0.0471394I
1.34976 0.66315I 0
u = 0.832349 0.372279I
a = 0.139598 1.207060I
b = 0.0679636 + 0.0471394I
1.34976 + 0.66315I 0
u = 0.656254 + 0.632742I
a = 0.564801 1.036380I
b = 0.962520 0.528825I
0.33221 + 2.15160I 0
u = 0.656254 0.632742I
a = 0.564801 + 1.036380I
b = 0.962520 + 0.528825I
0.33221 2.15160I 0
u = 0.421401 + 0.800169I
a = 1.125030 + 0.132865I
b = 0.293273 0.851923I
2.71761 1.32653I 0
u = 0.421401 0.800169I
a = 1.125030 0.132865I
b = 0.293273 + 0.851923I
2.71761 + 1.32653I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.259609 + 1.067610I
a = 1.72155 + 0.32265I
b = 0.466377 + 0.881217I
1.92144 + 12.29610I 0
u = 0.259609 1.067610I
a = 1.72155 0.32265I
b = 0.466377 0.881217I
1.92144 12.29610I 0
u = 0.723110 + 0.827949I
a = 0.84434 + 1.80493I
b = 0.38782 + 1.81403I
2.61470 2.35298I 0
u = 0.723110 0.827949I
a = 0.84434 1.80493I
b = 0.38782 1.81403I
2.61470 + 2.35298I 0
u = 0.947967 + 0.574342I
a = 0.878995 0.261408I
b = 0.142593 + 0.500799I
1.15276 + 2.52280I 0
u = 0.947967 0.574342I
a = 0.878995 + 0.261408I
b = 0.142593 0.500799I
1.15276 2.52280I 0
u = 0.825651 + 0.325227I
a = 1.03139 + 1.08118I
b = 1.96412 + 0.68654I
1.46496 + 3.76761I 0
u = 0.825651 0.325227I
a = 1.03139 1.08118I
b = 1.96412 0.68654I
1.46496 3.76761I 0
u = 1.037520 + 0.423630I
a = 0.655068 0.350769I
b = 0.390864 + 1.168550I
1.02564 5.30362I 0
u = 1.037520 0.423630I
a = 0.655068 + 0.350769I
b = 0.390864 1.168550I
1.02564 + 5.30362I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.091290 + 0.326589I
a = 0.125661 + 0.458687I
b = 0.98139 + 2.35676I
1.78195 + 6.72216I 0
u = 1.091290 0.326589I
a = 0.125661 0.458687I
b = 0.98139 2.35676I
1.78195 6.72216I 0
u = 0.715518 + 0.470453I
a = 0.146982 0.233324I
b = 1.19859 + 0.91932I
4.69000 5.44399I 0
u = 0.715518 0.470453I
a = 0.146982 + 0.233324I
b = 1.19859 0.91932I
4.69000 + 5.44399I 0
u = 1.105060 + 0.348432I
a = 0.429969 1.131870I
b = 0.29685 1.62962I
5.52117 + 1.02862I 0
u = 1.105060 0.348432I
a = 0.429969 + 1.131870I
b = 0.29685 + 1.62962I
5.52117 1.02862I 0
u = 0.834281 + 0.073903I
a = 0.085148 1.349500I
b = 0.742747 + 0.274742I
3.70589 2.85195I 0
u = 0.834281 0.073903I
a = 0.085148 + 1.349500I
b = 0.742747 0.274742I
3.70589 + 2.85195I 0
u = 1.168720 + 0.132657I
a = 0.374634 + 1.230770I
b = 0.446630 + 1.106190I
8.14969 + 0.29983I 0
u = 1.168720 0.132657I
a = 0.374634 1.230770I
b = 0.446630 1.106190I
8.14969 0.29983I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.057890 + 0.529949I
a = 0.549762 + 0.270888I
b = 0.32388 + 1.47416I
0.69986 5.52879I 0
u = 1.057890 0.529949I
a = 0.549762 0.270888I
b = 0.32388 1.47416I
0.69986 + 5.52879I 0
u = 1.133440 + 0.362308I
a = 0.37569 + 1.43089I
b = 2.68251 + 2.44321I
6.79023 6.46863I 0
u = 1.133440 0.362308I
a = 0.37569 1.43089I
b = 2.68251 2.44321I
6.79023 + 6.46863I 0
u = 0.774969 + 0.908000I
a = 0.847818 0.971440I
b = 0.253631 1.291530I
4.25675 0.06797I 0
u = 0.774969 0.908000I
a = 0.847818 + 0.971440I
b = 0.253631 + 1.291530I
4.25675 + 0.06797I 0
u = 1.165960 + 0.275055I
a = 0.456960 + 0.048402I
b = 0.603489 0.827587I
1.65982 + 1.25712I 0
u = 1.165960 0.275055I
a = 0.456960 0.048402I
b = 0.603489 + 0.827587I
1.65982 1.25712I 0
u = 0.598387 + 0.502597I
a = 0.32061 1.55924I
b = 1.45875 1.20083I
2.45000 + 1.47696I 2.21815 + 0.I
u = 0.598387 0.502597I
a = 0.32061 + 1.55924I
b = 1.45875 + 1.20083I
2.45000 1.47696I 2.21815 + 0.I
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.781170
a = 0.660008
b = 2.65405
0.526391 12.4510
u = 1.165080 + 0.391120I
a = 0.554888 1.188060I
b = 2.46665 2.02558I
7.73546 + 1.92109I 0
u = 1.165080 0.391120I
a = 0.554888 + 1.188060I
b = 2.46665 + 2.02558I
7.73546 1.92109I 0
u = 1.113090 + 0.539386I
a = 0.412358 0.117499I
b = 0.398639 + 0.659751I
0.260818 0.400392I 0
u = 1.113090 0.539386I
a = 0.412358 + 0.117499I
b = 0.398639 0.659751I
0.260818 + 0.400392I 0
u = 0.297259 + 0.702085I
a = 1.71072 + 0.42820I
b = 0.086831 0.815638I
1.72276 3.92826I 4.92577 + 8.41157I
u = 0.297259 0.702085I
a = 1.71072 0.42820I
b = 0.086831 + 0.815638I
1.72276 + 3.92826I 4.92577 8.41157I
u = 1.004280 + 0.734721I
a = 1.49398 1.38619I
b = 0.06660 2.24573I
1.74154 + 8.20625I 0
u = 1.004280 0.734721I
a = 1.49398 + 1.38619I
b = 0.06660 + 2.24573I
1.74154 8.20625I 0
u = 0.387915 + 0.646900I
a = 0.341745 0.685172I
b = 0.754171 0.784952I
2.62272 + 0.97071I 1.85950 0.63323I
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.387915 0.646900I
a = 0.341745 + 0.685172I
b = 0.754171 + 0.784952I
2.62272 0.97071I 1.85950 + 0.63323I
u = 1.128540 + 0.535413I
a = 0.315092 + 1.093540I
b = 1.92869 + 1.96354I
4.14830 + 8.67493I 0
u = 1.128540 0.535413I
a = 0.315092 1.093540I
b = 1.92869 1.96354I
4.14830 8.67493I 0
u = 0.749799
a = 0.510552
b = 0.219990
1.51667 5.25440
u = 0.192427 + 0.718269I
a = 2.15738 + 0.48060I
b = 0.342576 + 0.575969I
4.01739 5.53614I 4.00000 + 3.69769I
u = 0.192427 0.718269I
a = 2.15738 0.48060I
b = 0.342576 0.575969I
4.01739 + 5.53614I 4.00000 3.69769I
u = 1.117260 + 0.604980I
a = 0.121036 + 1.042240I
b = 1.67025 + 1.58440I
4.80170 + 6.61061I 0
u = 1.117260 0.604980I
a = 0.121036 1.042240I
b = 1.67025 1.58440I
4.80170 6.61061I 0
u = 1.165570 + 0.513406I
a = 0.449779 + 1.143800I
b = 0.229696 + 1.391280I
6.84123 + 10.22070I 0
u = 1.165570 0.513406I
a = 0.449779 1.143800I
b = 0.229696 1.391280I
6.84123 10.22070I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.211150 + 0.458943I
a = 0.156975 + 0.229898I
b = 0.571082 0.377330I
0.47114 9.20279I 0
u = 1.211150 0.458943I
a = 0.156975 0.229898I
b = 0.571082 + 0.377330I
0.47114 + 9.20279I 0
u = 0.051611 + 0.697056I
a = 0.410927 0.410638I
b = 0.784635 + 0.092928I
3.06555 + 4.91909I 0.44965 7.59677I
u = 0.051611 0.697056I
a = 0.410927 + 0.410638I
b = 0.784635 0.092928I
3.06555 4.91909I 0.44965 + 7.59677I
u = 1.292030 + 0.181188I
a = 0.157375 + 0.926748I
b = 0.587242 + 1.239310I
6.11471 3.27045I 0
u = 1.292030 0.181188I
a = 0.157375 0.926748I
b = 0.587242 1.239310I
6.11471 + 3.27045I 0
u = 1.264860 + 0.336878I
a = 0.299011 + 1.080750I
b = 0.47582 + 1.36586I
6.25089 3.34515I 0
u = 1.264860 0.336878I
a = 0.299011 1.080750I
b = 0.47582 1.36586I
6.25089 + 3.34515I 0
u = 0.985067 + 0.899162I
a = 0.449526 + 1.155670I
b = 0.42203 + 1.54482I
3.65832 6.49471I 0
u = 0.985067 0.899162I
a = 0.449526 1.155670I
b = 0.42203 1.54482I
3.65832 + 6.49471I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.237570 + 0.506251I
a = 0.660880 1.087730I
b = 1.90594 1.83014I
5.17592 + 6.17586I 0
u = 1.237570 0.506251I
a = 0.660880 + 1.087730I
b = 1.90594 + 1.83014I
5.17592 6.17586I 0
u = 0.649004 + 0.074296I
a = 0.51392 + 2.77828I
b = 0.27129 2.39289I
4.46140 + 4.15869I 3.67911 0.78240I
u = 0.649004 0.074296I
a = 0.51392 2.77828I
b = 0.27129 + 2.39289I
4.46140 4.15869I 3.67911 + 0.78240I
u = 1.196790 + 0.651190I
a = 0.19788 1.58630I
b = 1.65935 2.17229I
4.47841 + 9.04243I 0
u = 1.196790 0.651190I
a = 0.19788 + 1.58630I
b = 1.65935 + 2.17229I
4.47841 9.04243I 0
u = 1.243550 + 0.563865I
a = 0.742729 0.977181I
b = 0.526850 1.039350I
5.08145 + 1.93675I 0
u = 1.243550 0.563865I
a = 0.742729 + 0.977181I
b = 0.526850 + 1.039350I
5.08145 1.93675I 0
u = 0.603686 + 0.144992I
a = 0.391023 + 0.681439I
b = 1.84033 1.17193I
3.67321 4.24686I 1.03729 + 9.76117I
u = 0.603686 0.144992I
a = 0.391023 0.681439I
b = 1.84033 + 1.17193I
3.67321 + 4.24686I 1.03729 9.76117I
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.263010 + 0.635306I
a = 0.158476 1.375500I
b = 1.49608 2.22872I
5.0342 18.3765I 0
u = 1.263010 0.635306I
a = 0.158476 + 1.375500I
b = 1.49608 + 2.22872I
5.0342 + 18.3765I 0
u = 1.28903 + 0.61186I
a = 0.076027 + 1.225230I
b = 1.29368 + 2.17190I
3.81427 9.96932I 0
u = 1.28903 0.61186I
a = 0.076027 1.225230I
b = 1.29368 2.17190I
3.81427 + 9.96932I 0
u = 1.46564 + 0.28112I
a = 0.667596 + 0.882497I
b = 0.603595 + 1.080470I
7.80114 7.45975I 0
u = 1.46564 0.28112I
a = 0.667596 0.882497I
b = 0.603595 1.080470I
7.80114 + 7.45975I 0
u = 0.212450 + 0.420159I
a = 0.821744 0.425029I
b = 0.006894 0.395737I
0.141485 + 1.223150I 1.92517 5.09911I
u = 0.212450 0.420159I
a = 0.821744 + 0.425029I
b = 0.006894 + 0.395737I
0.141485 1.223150I 1.92517 + 5.09911I
u = 1.50432 + 0.37318I
a = 0.638007 0.597793I
b = 0.311741 0.809139I
5.75356 + 1.43008I 0
u = 1.50432 0.37318I
a = 0.638007 + 0.597793I
b = 0.311741 + 0.809139I
5.75356 1.43008I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.66200
a = 0.389300
b = 0.523560
9.93168 0
15
II.
I
u
2
= h−6.59 × 10
9
u
31
+ 1.17 × 10
10
u
30
+ · · · + 3.05 × 10
8
b 9.24 × 10
9
, 9.72 ×
10
9
u
31
1.67×10
10
u
30
+· · ·+3.05×10
8
a+1.16×10
10
, u
32
u
31
+· · ·3u+1i
(i) Arc colorings
a
3
=
1
0
a
8
=
0
u
a
2
=
1
u
2
a
1
=
u
2
+ 1
u
2
a
5
=
31.9076u
31
+ 54.8097u
30
+ ··· + 185.646u 38.2410
21.6495u
31
38.3318u
30
+ ··· 140.748u + 30.3367
a
6
=
33.6655u
31
+ 58.6727u
30
+ ··· + 198.206u 43.1093
25.7549u
31
44.7115u
30
+ ··· 159.750u + 34.7161
a
7
=
u
u
3
+ u
a
12
=
6.37742u
31
+ 9.38738u
30
+ ··· + 37.9502u 12.0833
3.23545u
31
+ 0.552598u
30
+ ··· 1.48578u + 3.98693
a
11
=
6.37742u
31
+ 9.38738u
30
+ ··· + 37.9502u 12.0833
0.0372065u
31
3.19741u
30
+ ··· 16.8931u + 6.99689
a
9
=
9.18508u
31
17.8951u
30
+ ··· 60.9147u + 11.7849
7.61868u
31
+ 11.8510u
30
+ ··· + 54.3714u 10.3858
a
4
=
18.7594u
31
+ 32.8590u
30
+ ··· + 110.242u 27.5431
10.0143u
31
16.9898u
30
+ ··· 55.6691u + 15.0390
a
10
=
15.5359u
31
27.4567u
30
+ ··· 96.7263u + 19.3080
4.17918u
31
+ 6.63738u
30
+ ··· + 34.5429u 6.07334
(ii) Obstruction class = 1
(iii) Cusp Shapes =
26306939827
304614406
u
31
45742642605
304614406
u
30
+ ···
137351628763
304614406
u +
15592194281
152307203
16
(iv) u-Polynomials at the component
17
Crossings u-Polynomials at each crossing
c
1
u
32
21u
31
+ ··· 35u + 1
c
2
u
32
u
31
+ ··· 3u + 1
c
3
u
32
u
31
+ ··· + 10u
2
+ 1
c
4
u
32
u
31
+ ··· + 364u + 169
c
5
u
32
+ u
31
+ ··· 4u 1
c
6
u
32
+ 4u
31
+ ··· 6u 1
c
7
u
32
+ u
31
+ ··· + 3u + 1
c
8
u
32
16u
31
+ ··· 8u + 1
c
9
u
32
+ 4u
31
+ ··· + 205u 79
c
10
u
32
+ 2u
30
+ ··· u + 1
c
11
u
32
+ 16u
31
+ ··· + 8u + 1
c
12
u
32
u
31
+ ··· + 4u 1
18
19
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
32
5y
31
+ ··· 395y + 1
c
2
, c
7
y
32
21y
31
+ ··· 35y + 1
c
3
y
32
5y
31
+ ··· + 20y + 1
c
4
y
32
+ 11y
31
+ ··· + 378560y + 28561
c
5
, c
12
y
32
15y
31
+ ··· 14y + 1
c
6
y
32
+ 4y
31
+ ··· + 6y
2
+ 1
c
8
, c
11
y
32
24y
31
+ ··· + 20y + 1
c
9
y
32
16y
31
+ ··· 52769y + 6241
c
10
y
32
+ 4y
31
+ ··· 9y + 1
20
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.980268 + 0.194926I
a = 0.34395 + 1.43609I
b = 0.123165 + 1.215990I
7.36645 0.77286I 2.63433 + 11.55591I
u = 0.980268 0.194926I
a = 0.34395 1.43609I
b = 0.123165 1.215990I
7.36645 + 0.77286I 2.63433 11.55591I
u = 0.630734 + 0.750536I
a = 0.42899 1.95867I
b = 0.96670 1.54528I
3.34075 + 2.07396I 5.65134 3.73262I
u = 0.630734 0.750536I
a = 0.42899 + 1.95867I
b = 0.96670 + 1.54528I
3.34075 2.07396I 5.65134 + 3.73262I
u = 1.037650 + 0.358363I
a = 0.167211 0.000297I
b = 0.48594 1.88481I
2.42811 6.51399I 2.33326 + 6.81442I
u = 1.037650 0.358363I
a = 0.167211 + 0.000297I
b = 0.48594 + 1.88481I
2.42811 + 6.51399I 2.33326 6.81442I
u = 0.375099 + 0.816164I
a = 1.75372 0.02617I
b = 0.436371 + 0.890345I
1.61386 2.55409I 1.67020 + 1.09385I
u = 0.375099 0.816164I
a = 1.75372 + 0.02617I
b = 0.436371 0.890345I
1.61386 + 2.55409I 1.67020 1.09385I
u = 0.852551 + 0.705372I
a = 0.348636 0.992908I
b = 0.92253 1.64631I
5.69538 + 6.55678I 2.56792 7.16129I
u = 0.852551 0.705372I
a = 0.348636 + 0.992908I
b = 0.92253 + 1.64631I
5.69538 6.55678I 2.56792 + 7.16129I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.621409 + 0.592076I
a = 1.42985 + 1.30299I
b = 0.320427 + 0.301889I
2.46201 3.44323I 4.82242 + 0.23837I
u = 0.621409 0.592076I
a = 1.42985 1.30299I
b = 0.320427 0.301889I
2.46201 + 3.44323I 4.82242 0.23837I
u = 0.898079 + 0.755548I
a = 0.632834 + 0.698476I
b = 0.39489 + 1.55987I
5.56852 1.00520I 3.92655 + 1.26527I
u = 0.898079 0.755548I
a = 0.632834 0.698476I
b = 0.39489 1.55987I
5.56852 + 1.00520I 3.92655 1.26527I
u = 0.761896 + 0.319991I
a = 0.055438 + 0.707752I
b = 1.89833 + 1.63743I
3.47370 + 3.63345I 3.55925 + 0.94794I
u = 0.761896 0.319991I
a = 0.055438 0.707752I
b = 1.89833 1.63743I
3.47370 3.63345I 3.55925 0.94794I
u = 1.090840 + 0.461551I
a = 0.041357 + 0.367261I
b = 0.164825 0.197195I
0.159840 + 0.169610I 6.78432 2.26247I
u = 1.090840 0.461551I
a = 0.041357 0.367261I
b = 0.164825 + 0.197195I
0.159840 0.169610I 6.78432 + 2.26247I
u = 1.226190 + 0.065079I
a = 0.033434 1.195280I
b = 0.46043 2.53083I
6.81764 + 4.63942I 9.12510 5.17213I
u = 1.226190 0.065079I
a = 0.033434 + 1.195280I
b = 0.46043 + 2.53083I
6.81764 4.63942I 9.12510 + 5.17213I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.728651 + 0.020366I
a = 0.12361 2.73559I
b = 0.45039 + 1.82542I
4.78351 4.26429I 19.7845 + 8.5177I
u = 0.728651 0.020366I
a = 0.12361 + 2.73559I
b = 0.45039 1.82542I
4.78351 + 4.26429I 19.7845 8.5177I
u = 1.065580 + 0.712278I
a = 1.23946 + 1.00654I
b = 0.16431 + 1.96766I
2.00750 7.68008I 0. + 4.19169I
u = 1.065580 0.712278I
a = 1.23946 1.00654I
b = 0.16431 1.96766I
2.00750 + 7.68008I 0. 4.19169I
u = 1.164730 + 0.562610I
a = 0.267817 1.224490I
b = 1.79705 1.96826I
4.14777 + 7.70967I 5.90759 5.11382I
u = 1.164730 0.562610I
a = 0.267817 + 1.224490I
b = 1.79705 + 1.96826I
4.14777 7.70967I 5.90759 + 5.11382I
u = 0.644594 + 0.276379I
a = 1.02230 + 1.21826I
b = 1.67074 + 0.11441I
1.61620 + 3.09807I 2.35957 0.52960I
u = 0.644594 0.276379I
a = 1.02230 1.21826I
b = 1.67074 0.11441I
1.61620 3.09807I 2.35957 + 0.52960I
u = 1.43394 + 0.39466I
a = 0.617323 + 0.701200I
b = 0.354730 + 0.873441I
5.62758 1.59349I 0
u = 1.43394 0.39466I
a = 0.617323 0.701200I
b = 0.354730 0.873441I
5.62758 + 1.59349I 0
23
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 1.67414
a = 0.401513
b = 0.486029
9.89006 91.8550
u = 0.224361
a = 3.16193
b = 1.48470
1.26809 1.91950
24
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
32
21u
31
+ ··· 35u + 1)(u
101
+ 58u
100
+ ··· + 943774u + 44521)
c
2
(u
32
u
31
+ ··· 3u + 1)(u
101
29u
99
+ ··· 366u 211)
c
3
(u
32
u
31
+ ··· + 10u
2
+ 1)(u
101
2u
100
+ ··· 97u + 7)
c
4
(u
32
u
31
+ ··· + 364u + 169)
· (u
101
+ 23u
99
+ ··· + 750579u + 306659)
c
5
(u
32
+ u
31
+ ··· 4u 1)(u
101
16u
99
+ ··· 953u 133)
c
6
(u
32
+ 4u
31
+ ··· 6u 1)(u
101
u
100
+ ··· + 227u 23)
c
7
(u
32
+ u
31
+ ··· + 3u + 1)(u
101
29u
99
+ ··· 366u 211)
c
8
(u
32
16u
31
+ ··· 8u + 1)
· (u
101
+ 15u
100
+ ··· + 3501095u + 215671)
c
9
(u
32
+ 4u
31
+ ··· + 205u 79)
· (u
101
7u
100
+ ··· 1316600u + 92575)
c
10
(u
32
+ 2u
30
+ ··· u + 1)(u
101
3u
100
+ ··· 790u 83)
c
11
(u
32
+ 16u
31
+ ··· + 8u + 1)
· (u
101
+ 15u
100
+ ··· + 3501095u + 215671)
c
12
(u
32
u
31
+ ··· + 4u 1)(u
101
16u
99
+ ··· 953u 133)
25
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
32
5y
31
+ ··· 395y + 1)
· (y
101
14y
100
+ ··· + 27975815430y 1982119441)
c
2
, c
7
(y
32
21y
31
+ ··· 35y + 1)(y
101
58y
100
+ ··· + 943774y 44521)
c
3
(y
32
5y
31
+ ··· + 20y + 1)(y
101
10y
100
+ ··· + 155y 49)
c
4
(y
32
+ 11y
31
+ ··· + 378560y + 28561)
· (y
101
+ 46y
100
+ ··· 3797359557157y 94039742281)
c
5
, c
12
(y
32
15y
31
+ ··· 14y + 1)(y
101
32y
100
+ ··· + 823621y 17689)
c
6
(y
32
+ 4y
31
+ ··· + 6y
2
+ 1)(y
101
9y
100
+ ··· + 23423y 529)
c
8
, c
11
(y
32
24y
31
+ ··· + 20y + 1)
· (y
101
93y
100
+ ··· + 1171525903947y 46513980241)
c
9
(y
32
16y
31
+ ··· 52769y + 6241)
· (y
101
45y
100
+ ··· + 570114040500y 8570130625)
c
10
(y
32
+ 4y
31
+ ··· 9y + 1)(y
101
+ 11y
100
+ ··· 196936y 6889)
26