12n
0862
(K12n
0862
)
A knot diagram
1
Linearized knot diagam
4 7 10 11 2 9 1 3 6 1 5 7
Solving Sequence
7,12
1
5,8
11 4 2 3 6 10 9
c
12
c
7
c
11
c
4
c
1
c
2
c
5
c
10
c
9
c
3
, c
6
, c
8
Ideals for irreducible components
2
of X
par
I
u
1
= h−4.13423 × 10
545
u
98
8.41031 × 10
545
u
97
+ ··· + 7.71729 × 10
546
b 9.78140 × 10
546
,
5.62354 × 10
545
u
98
+ 8.39082 × 10
545
u
97
+ ··· + 7.71729 × 10
546
a 1.14457 × 10
547
, u
99
+ 2u
98
+ ··· 14u 1i
I
u
2
= h1.44391 × 10
37
u
35
2.21652 × 10
37
u
34
+ ··· + 7.10926 × 10
36
b 1.15603 × 10
37
,
2.43176 × 10
37
u
35
+ 4.52865 × 10
37
u
34
+ ··· + 7.10926 × 10
36
a 4.98348 × 10
37
, u
36
u
35
+ ··· 2u 1i
* 2 irreducible components of dim
C
= 0, with total 135 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−4.13 × 10
545
u
98
8.41 × 10
545
u
97
+ · · · + 7.72 × 10
546
b 9.78 ×
10
546
, 5.62 × 10
545
u
98
+ 8.39 × 10
545
u
97
+ · · · + 7.72 × 10
546
a 1.14 ×
10
547
, u
99
+ 2u
98
+ · · · 14u 1i
(i) Arc colorings
a
7
=
0
u
a
12
=
1
0
a
1
=
1
u
2
a
5
=
0.0728693u
98
0.108728u
97
+ ··· 13.0659u + 1.48313
0.0535710u
98
+ 0.108980u
97
+ ··· 0.601675u + 1.26747
a
8
=
u
u
3
+ u
a
11
=
0.0740548u
98
+ 0.178821u
97
+ ··· 11.5713u + 4.30161
0.0862112u
98
+ 0.164238u
97
+ ··· + 2.60025u + 1.58172
a
4
=
0.334497u
98
0.626075u
97
+ ··· 12.9486u 5.18044
0.0392665u
98
0.0482840u
97
+ ··· 9.63437u 0.506867
a
2
=
0.0956699u
98
0.257464u
97
+ ··· + 10.1109u 5.80856
0.00747297u
98
+ 0.0566310u
97
+ ··· 21.3422u 3.34556
a
3
=
0.0956699u
98
0.257464u
97
+ ··· + 10.1109u 5.80856
0.0249836u
98
+ 0.0918021u
97
+ ··· 22.3636u 3.41168
a
6
=
0.787689u
98
+ 1.52752u
97
+ ··· 69.5405u 9.45597
0.0462208u
98
+ 0.110462u
97
+ ··· 15.8136u 2.79226
a
10
=
0.0192983u
98
+ 0.000252513u
97
+ ··· 13.6676u + 2.75060
0.0886812u
98
+ 0.169088u
97
+ ··· + 2.62084u + 1.58986
a
9
=
0.509611u
98
+ 0.950444u
97
+ ··· 68.2325u + 2.11639
0.396273u
98
+ 0.765808u
97
+ ··· 26.1751u 0.792660
(ii) Obstruction class = 1
(iii) Cusp Shapes = 0.730846u
98
1.26329u
97
+ ··· 88.2611u 10.4029
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
99
+ 8u
98
+ ··· + 36u 5
c
2
u
99
u
98
+ ··· 20407938u 31437685
c
3
u
99
2u
98
+ ··· 309043u + 44933
c
4
, c
11
u
99
+ 2u
98
+ ··· + 66361u + 6341
c
5
u
99
3u
98
+ ··· 439231u 28927
c
6
, c
9
u
99
5u
98
+ ··· 544u + 88
c
7
, c
12
u
99
+ 2u
98
+ ··· 14u 1
c
8
u
99
+ u
98
+ ··· + 1415210u 900451
c
10
u
99
+ 6u
98
+ ··· 11704u + 191
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
99
10y
98
+ ··· 294y 25
c
2
y
99
+ 41y
98
+ ··· 24026013786433826y 988328038159225
c
3
y
99
+ 10y
98
+ ··· 1343708331y 2018974489
c
4
, c
11
y
99
90y
98
+ ··· + 1567376929y 40208281
c
5
y
99
+ 47y
98
+ ··· + 82222035835y 836771329
c
6
, c
9
y
99
+ 59y
98
+ ··· 190880y 7744
c
7
, c
12
y
99
+ 88y
98
+ ··· 138y 1
c
8
y
99
+ 33y
98
+ ··· 28122811583158y 810812003401
c
10
y
99
46y
98
+ ··· + 118391676y 36481
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.841907 + 0.665859I
a = 0.480654 1.217040I
b = 1.174250 0.039744I
2.49130 4.74543I 0
u = 0.841907 0.665859I
a = 0.480654 + 1.217040I
b = 1.174250 + 0.039744I
2.49130 + 4.74543I 0
u = 0.558882 + 0.663005I
a = 0.546261 1.222320I
b = 0.502565 + 0.043849I
0.13656 + 4.34462I 0
u = 0.558882 0.663005I
a = 0.546261 + 1.222320I
b = 0.502565 0.043849I
0.13656 4.34462I 0
u = 0.131669 + 1.135030I
a = 0.223696 0.439525I
b = 0.458676 + 0.424837I
2.27045 + 1.29976I 0
u = 0.131669 1.135030I
a = 0.223696 + 0.439525I
b = 0.458676 0.424837I
2.27045 1.29976I 0
u = 1.138660 + 0.274741I
a = 0.737094 0.887941I
b = 0.330996 0.935799I
2.60891 + 0.42160I 0
u = 1.138660 0.274741I
a = 0.737094 + 0.887941I
b = 0.330996 + 0.935799I
2.60891 0.42160I 0
u = 0.025254 + 1.180590I
a = 0.307410 + 0.482375I
b = 0.329710 0.747157I
3.11063 2.43594I 0
u = 0.025254 1.180590I
a = 0.307410 0.482375I
b = 0.329710 + 0.747157I
3.11063 + 2.43594I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.806800 + 0.101225I
a = 2.51629 0.95511I
b = 0.383951 0.268064I
0.33641 6.65531I 0
u = 0.806800 0.101225I
a = 2.51629 + 0.95511I
b = 0.383951 + 0.268064I
0.33641 + 6.65531I 0
u = 1.130000 + 0.503781I
a = 0.02556 1.90378I
b = 0.912448 0.703140I
0.94367 6.59640I 0
u = 1.130000 0.503781I
a = 0.02556 + 1.90378I
b = 0.912448 + 0.703140I
0.94367 + 6.59640I 0
u = 0.749780
a = 3.85347
b = 0.507829
4.28603 0
u = 0.172092 + 1.243830I
a = 0.174890 0.489493I
b = 0.361805 0.145036I
2.59575 + 2.23609I 0
u = 0.172092 1.243830I
a = 0.174890 + 0.489493I
b = 0.361805 + 0.145036I
2.59575 2.23609I 0
u = 0.734114
a = 2.17128
b = 0.731388
2.34784 0
u = 0.678779 + 0.269082I
a = 1.23135 + 0.81607I
b = 1.272410 0.203025I
0.912418 0.160739I 0
u = 0.678779 0.269082I
a = 1.23135 0.81607I
b = 1.272410 + 0.203025I
0.912418 + 0.160739I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.275020 + 0.163285I
a = 0.897049 + 0.290257I
b = 0.813600 + 0.085835I
3.31462 1.01409I 0
u = 1.275020 0.163285I
a = 0.897049 0.290257I
b = 0.813600 0.085835I
3.31462 + 1.01409I 0
u = 0.366152 + 0.612502I
a = 0.495378 + 0.200281I
b = 0.961051 + 0.092169I
3.17315 + 0.57771I 0
u = 0.366152 0.612502I
a = 0.495378 0.200281I
b = 0.961051 0.092169I
3.17315 0.57771I 0
u = 0.320047 + 0.620159I
a = 0.497009 0.267226I
b = 0.981853 0.461824I
1.49843 + 1.71620I 0
u = 0.320047 0.620159I
a = 0.497009 + 0.267226I
b = 0.981853 + 0.461824I
1.49843 1.71620I 0
u = 1.364920 + 0.022663I
a = 0.660886 + 0.261525I
b = 0.914002 + 0.084661I
2.92110 + 1.72300I 0
u = 1.364920 0.022663I
a = 0.660886 0.261525I
b = 0.914002 0.084661I
2.92110 1.72300I 0
u = 0.077138 + 1.372770I
a = 0.091199 0.752761I
b = 0.705516 0.513272I
2.36200 + 2.20848I 0
u = 0.077138 1.372770I
a = 0.091199 + 0.752761I
b = 0.705516 + 0.513272I
2.36200 2.20848I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.115603 + 1.381960I
a = 0.71542 + 1.29686I
b = 1.037720 + 0.412533I
7.34093 7.61660I 0
u = 0.115603 1.381960I
a = 0.71542 1.29686I
b = 1.037720 0.412533I
7.34093 + 7.61660I 0
u = 1.390590 + 0.253299I
a = 0.504938 0.165887I
b = 1.340510 0.191286I
7.70793 0.30774I 0
u = 1.390590 0.253299I
a = 0.504938 + 0.165887I
b = 1.340510 + 0.191286I
7.70793 + 0.30774I 0
u = 0.34035 + 1.37755I
a = 0.206775 + 0.498668I
b = 0.096627 + 0.445266I
6.77160 6.21356I 0
u = 0.34035 1.37755I
a = 0.206775 0.498668I
b = 0.096627 0.445266I
6.77160 + 6.21356I 0
u = 0.526678
a = 0.943179
b = 0.689513
0.952013 10.9550
u = 0.35927 + 1.43517I
a = 0.373171 0.175529I
b = 0.178657 + 1.370660I
7.48264 0.43702I 0
u = 0.35927 1.43517I
a = 0.373171 + 0.175529I
b = 0.178657 1.370660I
7.48264 + 0.43702I 0
u = 0.487130 + 0.161889I
a = 2.74918 1.16574I
b = 1.359750 0.032280I
3.15153 + 5.69737I 0.323090 1.093045I
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.487130 0.161889I
a = 2.74918 + 1.16574I
b = 1.359750 + 0.032280I
3.15153 5.69737I 0.323090 + 1.093045I
u = 0.503721 + 0.078772I
a = 1.59142 0.27337I
b = 0.217966 0.535658I
2.94519 + 2.79350I 5.37825 2.60185I
u = 0.503721 0.078772I
a = 1.59142 + 0.27337I
b = 0.217966 + 0.535658I
2.94519 2.79350I 5.37825 + 2.60185I
u = 0.283860 + 0.380766I
a = 1.212560 + 0.571324I
b = 0.640597 0.599069I
1.100560 0.006892I 10.45174 + 0.21085I
u = 0.283860 0.380766I
a = 1.212560 0.571324I
b = 0.640597 + 0.599069I
1.100560 + 0.006892I 10.45174 0.21085I
u = 0.14706 + 1.52666I
a = 0.012539 + 0.419450I
b = 0.413730 + 0.752092I
5.56058 + 3.23730I 0
u = 0.14706 1.52666I
a = 0.012539 0.419450I
b = 0.413730 0.752092I
5.56058 3.23730I 0
u = 0.12041 + 1.55906I
a = 1.71311 + 0.59107I
b = 1.364850 + 0.053351I
11.04790 + 4.75147I 0
u = 0.12041 1.55906I
a = 1.71311 0.59107I
b = 1.364850 0.053351I
11.04790 4.75147I 0
u = 1.59446 + 0.11781I
a = 0.470296 0.148956I
b = 1.42228 0.28677I
3.02276 + 3.67171I 0
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 1.59446 0.11781I
a = 0.470296 + 0.148956I
b = 1.42228 + 0.28677I
3.02276 3.67171I 0
u = 0.04772 + 1.60438I
a = 1.367460 + 0.152126I
b = 1.54935 + 0.63664I
12.06290 7.00092I 0
u = 0.04772 1.60438I
a = 1.367460 0.152126I
b = 1.54935 0.63664I
12.06290 + 7.00092I 0
u = 0.01871 + 1.60873I
a = 1.61348 + 0.03894I
b = 1.58139 0.02708I
10.52470 0.08002I 0
u = 0.01871 1.60873I
a = 1.61348 0.03894I
b = 1.58139 + 0.02708I
10.52470 + 0.08002I 0
u = 0.04319 + 1.61215I
a = 1.90412 0.14400I
b = 1.240570 + 0.030624I
5.52663 2.36605I 0
u = 0.04319 1.61215I
a = 1.90412 + 0.14400I
b = 1.240570 0.030624I
5.52663 + 2.36605I 0
u = 0.09411 + 1.62140I
a = 1.57411 + 0.01957I
b = 1.311230 0.324208I
6.50816 + 6.43237I 0
u = 0.09411 1.62140I
a = 1.57411 0.01957I
b = 1.311230 + 0.324208I
6.50816 6.43237I 0
u = 0.40126 + 1.58028I
a = 0.315133 + 0.055054I
b = 0.25564 1.43131I
2.35561 + 5.41845I 0
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.40126 1.58028I
a = 0.315133 0.055054I
b = 0.25564 + 1.43131I
2.35561 5.41845I 0
u = 0.09574 + 1.63425I
a = 1.65669 0.13609I
b = 1.297230 + 0.168492I
5.38317 3.33321I 0
u = 0.09574 1.63425I
a = 1.65669 + 0.13609I
b = 1.297230 0.168492I
5.38317 + 3.33321I 0
u = 0.32785 + 1.60601I
a = 0.245188 0.074585I
b = 0.27399 + 1.39829I
5.94803 11.21930I 0
u = 0.32785 1.60601I
a = 0.245188 + 0.074585I
b = 0.27399 1.39829I
5.94803 + 11.21930I 0
u = 0.15468 + 1.66146I
a = 1.374040 0.309901I
b = 1.52586 + 0.10620I
7.11961 5.54819I 0
u = 0.15468 1.66146I
a = 1.374040 + 0.309901I
b = 1.52586 0.10620I
7.11961 + 5.54819I 0
u = 0.71253 + 1.55073I
a = 1.36949 + 0.72327I
b = 1.48889 + 0.52726I
12.8693 + 6.8764I 0
u = 0.71253 1.55073I
a = 1.36949 0.72327I
b = 1.48889 0.52726I
12.8693 6.8764I 0
u = 0.04063 + 1.70758I
a = 1.278400 0.060583I
b = 1.75827 0.48827I
7.56157 + 3.30858I 0
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.04063 1.70758I
a = 1.278400 + 0.060583I
b = 1.75827 + 0.48827I
7.56157 3.30858I 0
u = 0.09804 + 1.70887I
a = 1.322810 + 0.138996I
b = 1.58383 0.20996I
6.40985 + 3.35174I 0
u = 0.09804 1.70887I
a = 1.322810 0.138996I
b = 1.58383 + 0.20996I
6.40985 3.35174I 0
u = 0.078333 + 0.268938I
a = 2.24092 1.99047I
b = 0.835453 + 0.478092I
0.24867 + 4.16049I 7.66355 7.49884I
u = 0.078333 0.268938I
a = 2.24092 + 1.99047I
b = 0.835453 0.478092I
0.24867 4.16049I 7.66355 + 7.49884I
u = 0.21066 + 1.72405I
a = 1.165180 + 0.153518I
b = 1.94902 + 0.92546I
9.84065 + 2.24703I 0
u = 0.21066 1.72405I
a = 1.165180 0.153518I
b = 1.94902 0.92546I
9.84065 2.24703I 0
u = 0.206008 + 0.095507I
a = 4.40218 + 1.16103I
b = 1.149320 0.378794I
5.56039 6.41977I 1.64714 + 6.90816I
u = 0.206008 0.095507I
a = 4.40218 1.16103I
b = 1.149320 + 0.378794I
5.56039 + 6.41977I 1.64714 6.90816I
u = 0.76917 + 1.60242I
a = 1.173590 0.564908I
b = 1.392800 0.185453I
8.15426 4.21056I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.76917 1.60242I
a = 1.173590 + 0.564908I
b = 1.392800 + 0.185453I
8.15426 + 4.21056I 0
u = 0.110856 + 0.169303I
a = 1.76909 0.13498I
b = 0.382443 + 0.713139I
1.02164 2.30830I 7.48322 1.56595I
u = 0.110856 0.169303I
a = 1.76909 + 0.13498I
b = 0.382443 0.713139I
1.02164 + 2.30830I 7.48322 + 1.56595I
u = 0.063091 + 0.187939I
a = 1.72582 + 0.32469I
b = 0.494125 0.690437I
1.67668 0.04041I 5.30445 + 0.32910I
u = 0.063091 0.187939I
a = 1.72582 0.32469I
b = 0.494125 + 0.690437I
1.67668 + 0.04041I 5.30445 0.32910I
u = 1.82926 + 0.02603I
a = 0.482654 0.123459I
b = 1.47654 0.21993I
6.01817 + 9.10369I 0
u = 1.82926 0.02603I
a = 0.482654 + 0.123459I
b = 1.47654 + 0.21993I
6.01817 9.10369I 0
u = 0.76157 + 1.67204I
a = 1.25771 0.64738I
b = 1.52331 0.55961I
7.9115 12.2028I 0
u = 0.76157 1.67204I
a = 1.25771 + 0.64738I
b = 1.52331 + 0.55961I
7.9115 + 12.2028I 0
u = 0.71606 + 1.72620I
a = 1.261790 + 0.582601I
b = 1.54412 + 0.55478I
11.6473 + 17.9875I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.71606 1.72620I
a = 1.261790 0.582601I
b = 1.54412 0.55478I
11.6473 17.9875I 0
u = 0.0974023 + 0.0623725I
a = 3.28317 + 1.01195I
b = 1.107660 0.597656I
1.08848 7.32595I 2.34406 + 1.32437I
u = 0.0974023 0.0623725I
a = 3.28317 1.01195I
b = 1.107660 + 0.597656I
1.08848 + 7.32595I 2.34406 1.32437I
u = 0.0066835 + 0.1147270I
a = 3.13072 1.30877I
b = 1.024890 + 0.566210I
0.11428 + 4.80264I 3.65062 12.30393I
u = 0.0066835 0.1147270I
a = 3.13072 + 1.30877I
b = 1.024890 0.566210I
0.11428 4.80264I 3.65062 + 12.30393I
u = 0.61470 + 1.78428I
a = 1.201800 + 0.424412I
b = 1.48580 + 0.18410I
11.96160 + 0.01213I 0
u = 0.61470 1.78428I
a = 1.201800 0.424412I
b = 1.48580 0.18410I
11.96160 0.01213I 0
u = 0.89738 + 1.67398I
a = 1.097410 + 0.546329I
b = 1.377410 + 0.235887I
11.5998 + 8.9491I 0
u = 0.89738 1.67398I
a = 1.097410 0.546329I
b = 1.377410 0.235887I
11.5998 8.9491I 0
14
II.
I
u
2
= h1.44×10
37
u
35
2.22×10
37
u
34
+· · ·+7.11×10
36
b1.16×10
37
, 2.43×
10
37
u
35
+4.53×10
37
u
34
+· · ·+7.11×10
36
a4.98×10
37
, u
36
u
35
+· · ·2u1i
(i) Arc colorings
a
7
=
0
u
a
12
=
1
0
a
1
=
1
u
2
a
5
=
3.42056u
35
6.37007u
34
+ ··· 9.08919u + 7.00984
2.03103u
35
+ 3.11780u
34
+ ··· + 2.58945u + 1.62609
a
8
=
u
u
3
+ u
a
11
=
0.641007u
35
+ 2.22410u
34
+ ··· + 5.52246u 8.65232
1.31983u
35
+ 2.36282u
34
+ ··· + 1.54791u + 1.56671
a
4
=
3.24316u
35
4.97900u
34
+ ··· 4.88135u 0.259154
1.85425u
35
+ 2.56540u
34
+ ··· + 1.97687u + 3.65637
a
2
=
5.75723u
35
+ 8.87108u
34
+ ··· + 5.24889u + 6.22644
2.65462u
35
4.56701u
34
+ ··· 3.04349u 1.83423
a
3
=
5.75723u
35
+ 8.87108u
34
+ ··· + 5.24889u + 6.22644
0.831439u
35
1.97606u
34
+ ··· 2.57303u + 1.27961
a
6
=
6.11435u
35
+ 8.23226u
34
+ ··· 1.34294u + 17.7253
3.05021u
35
5.25482u
34
+ ··· 2.82856u 3.66053
a
10
=
1.38953u
35
+ 3.25228u
34
+ ··· + 6.49974u 8.63593
1.45293u
35
+ 2.48165u
34
+ ··· + 1.35868u + 1.84636
a
9
=
5.02428u
35
7.81497u
34
+ ··· 8.04860u 10.1028
1.31065u
35
1.56847u
34
+ ··· + 0.857942u 3.37089
(ii) Obstruction class = 1
(iii) Cusp Shapes = 27.4389u
35
44.6719u
34
+ ··· 34.3494u 47.9556
15
(iv) u-Polynomials at the component
16
Crossings u-Polynomials at each crossing
c
1
u
36
21u
35
+ ··· + 2u 1
c
2
u
36
7u
34
+ ··· + 11u
2
1
c
3
u
36
3u
35
+ ··· + 3u + 1
c
4
u
36
u
35
+ ··· u 1
c
5
u
36
+ 2u
34
+ ··· 49u 5
c
6
u
36
8u
35
+ ··· 52u + 8
c
7
u
36
+ u
35
+ ··· + 2u 1
c
8
u
36
9u
34
+ ··· 2u + 1
c
9
u
36
+ 8u
35
+ ··· + 52u + 8
c
10
u
36
+ 11u
35
+ ··· 6u 1
c
11
u
36
+ u
35
+ ··· + u 1
c
12
u
36
u
35
+ ··· 2u 1
17
18
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
36
17y
35
+ ··· 18y + 1
c
2
y
36
14y
35
+ ··· 22y + 1
c
3
y
36
13y
35
+ ··· y + 1
c
4
, c
11
y
36
33y
35
+ ··· 17y + 1
c
5
y
36
+ 4y
35
+ ··· + 329y + 25
c
6
, c
9
y
36
+ 20y
35
+ ··· + 816y + 64
c
7
, c
12
y
36
+ 13y
35
+ ··· 18y + 1
c
8
y
36
18y
35
+ ··· 10y + 1
c
10
y
36
13y
35
+ ··· 16y + 1
19
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.933978 + 0.264392I
a = 0.951125 + 0.787457I
b = 0.110086 + 0.813600I
3.05609 + 0.45050I 16.5545 1.0085I
u = 0.933978 0.264392I
a = 0.951125 0.787457I
b = 0.110086 0.813600I
3.05609 0.45050I 16.5545 + 1.0085I
u = 0.843660
a = 1.17925
b = 0.380590
3.07766 15.7190
u = 0.000828 + 1.169490I
a = 0.489625 0.413020I
b = 0.197521 + 0.366303I
1.98881 + 1.75644I 9.99638 6.31597I
u = 0.000828 1.169490I
a = 0.489625 + 0.413020I
b = 0.197521 0.366303I
1.98881 1.75644I 9.99638 + 6.31597I
u = 0.079255 + 0.798291I
a = 0.40042 + 1.42271I
b = 0.588235 0.406172I
4.41221 2.72786I 2.45795 + 3.77656I
u = 0.079255 0.798291I
a = 0.40042 1.42271I
b = 0.588235 + 0.406172I
4.41221 + 2.72786I 2.45795 3.77656I
u = 1.042160 + 0.604650I
a = 0.35792 + 2.09607I
b = 0.966126 + 0.621760I
1.12414 6.38280I 14.9037 4.1510I
u = 1.042160 0.604650I
a = 0.35792 2.09607I
b = 0.966126 0.621760I
1.12414 + 6.38280I 14.9037 + 4.1510I
u = 0.504737 + 0.607203I
a = 0.956754 + 0.326325I
b = 0.631344 + 0.573526I
0.80766 3.25952I 5.28373 + 4.58456I
20
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.504737 0.607203I
a = 0.956754 0.326325I
b = 0.631344 0.573526I
0.80766 + 3.25952I 5.28373 4.58456I
u = 0.741509 + 0.266947I
a = 1.49012 0.26016I
b = 1.45690 + 0.59412I
0.806411 0.462384I 4.6062 + 18.2130I
u = 0.741509 0.266947I
a = 1.49012 + 0.26016I
b = 1.45690 0.59412I
0.806411 + 0.462384I 4.6062 18.2130I
u = 0.730985 + 0.222082I
a = 1.40211 + 1.09483I
b = 1.385760 + 0.151946I
2.86751 6.34395I 4.36129 + 11.79304I
u = 0.730985 0.222082I
a = 1.40211 1.09483I
b = 1.385760 0.151946I
2.86751 + 6.34395I 4.36129 11.79304I
u = 1.248490 + 0.269258I
a = 0.845857 0.140881I
b = 0.848036 0.217008I
3.42093 + 0.63578I 11.32870 + 7.98607I
u = 1.248490 0.269258I
a = 0.845857 + 0.140881I
b = 0.848036 + 0.217008I
3.42093 0.63578I 11.32870 7.98607I
u = 0.178545 + 1.294760I
a = 0.439829 0.979967I
b = 0.985010 0.410304I
7.82429 7.37095I 5.35667 + 5.36931I
u = 0.178545 1.294760I
a = 0.439829 + 0.979967I
b = 0.985010 + 0.410304I
7.82429 + 7.37095I 5.35667 5.36931I
u = 0.028226 + 1.317640I
a = 0.355990 + 0.458054I
b = 0.604381 + 0.375933I
2.38848 + 2.70269I 8.6681 13.6821I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.028226 1.317640I
a = 0.355990 0.458054I
b = 0.604381 0.375933I
2.38848 2.70269I 8.6681 + 13.6821I
u = 0.529165 + 0.370552I
a = 0.460011 + 0.394367I
b = 1.100350 + 0.576229I
0.24462 + 4.33021I 7.90307 + 3.12935I
u = 0.529165 0.370552I
a = 0.460011 0.394367I
b = 1.100350 0.576229I
0.24462 4.33021I 7.90307 3.12935I
u = 0.581297 + 0.258694I
a = 0.520779 + 0.436766I
b = 1.077910 + 0.535598I
0.72055 + 7.65074I 10.2916 12.5302I
u = 0.581297 0.258694I
a = 0.520779 0.436766I
b = 1.077910 0.535598I
0.72055 7.65074I 10.2916 + 12.5302I
u = 1.49418 + 0.18399I
a = 0.703476 + 0.117939I
b = 1.064640 + 0.190926I
2.63110 + 2.23325I 0
u = 1.49418 0.18399I
a = 0.703476 0.117939I
b = 1.064640 0.190926I
2.63110 2.23325I 0
u = 0.461663 + 0.164231I
a = 5.34764 + 2.96273I
b = 0.785476 0.073442I
0.32040 + 6.52647I 1.05599 6.20509I
u = 0.461663 0.164231I
a = 5.34764 2.96273I
b = 0.785476 + 0.073442I
0.32040 6.52647I 1.05599 + 6.20509I
u = 0.25924 + 1.49913I
a = 1.50473 + 0.43312I
b = 1.42803 0.15494I
8.15186 + 4.94827I 0
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.25924 1.49913I
a = 1.50473 0.43312I
b = 1.42803 + 0.15494I
8.15186 4.94827I 0
u = 0.452642
a = 7.57265
b = 0.803257
3.75887 7.14540
u = 0.13856 + 1.70888I
a = 1.240340 0.207170I
b = 1.81020 0.51076I
9.42435 + 2.44760I 0
u = 0.13856 1.70888I
a = 1.240340 + 0.207170I
b = 1.81020 + 0.51076I
9.42435 2.44760I 0
u = 0.10682 + 1.77968I
a = 1.357380 0.135941I
b = 1.49240 + 0.18207I
7.01957 4.09701I 0
u = 0.10682 1.77968I
a = 1.357380 + 0.135941I
b = 1.49240 0.18207I
7.01957 + 4.09701I 0
23
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
36
21u
35
+ ··· + 2u 1)(u
99
+ 8u
98
+ ··· + 36u 5)
c
2
(u
36
7u
34
+ ··· + 11u
2
1)
· (u
99
u
98
+ ··· 20407938u 31437685)
c
3
(u
36
3u
35
+ ··· + 3u + 1)(u
99
2u
98
+ ··· 309043u + 44933)
c
4
(u
36
u
35
+ ··· u 1)(u
99
+ 2u
98
+ ··· + 66361u + 6341)
c
5
(u
36
+ 2u
34
+ ··· 49u 5)(u
99
3u
98
+ ··· 439231u 28927)
c
6
(u
36
8u
35
+ ··· 52u + 8)(u
99
5u
98
+ ··· 544u + 88)
c
7
(u
36
+ u
35
+ ··· + 2u 1)(u
99
+ 2u
98
+ ··· 14u 1)
c
8
(u
36
9u
34
+ ··· 2u + 1)(u
99
+ u
98
+ ··· + 1415210u 900451)
c
9
(u
36
+ 8u
35
+ ··· + 52u + 8)(u
99
5u
98
+ ··· 544u + 88)
c
10
(u
36
+ 11u
35
+ ··· 6u 1)(u
99
+ 6u
98
+ ··· 11704u + 191)
c
11
(u
36
+ u
35
+ ··· + u 1)(u
99
+ 2u
98
+ ··· + 66361u + 6341)
c
12
(u
36
u
35
+ ··· 2u 1)(u
99
+ 2u
98
+ ··· 14u 1)
24
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
36
17y
35
+ ··· 18y + 1)(y
99
10y
98
+ ··· 294y 25)
c
2
(y
36
14y
35
+ ··· 22y + 1)
· (y
99
+ 41y
98
+ ··· 24026013786433826y 988328038159225)
c
3
(y
36
13y
35
+ ··· y + 1)
· (y
99
+ 10y
98
+ ··· 1343708331y 2018974489)
c
4
, c
11
(y
36
33y
35
+ ··· 17y + 1)
· (y
99
90y
98
+ ··· + 1567376929y 40208281)
c
5
(y
36
+ 4y
35
+ ··· + 329y + 25)
· (y
99
+ 47y
98
+ ··· + 82222035835y 836771329)
c
6
, c
9
(y
36
+ 20y
35
+ ··· + 816y + 64)(y
99
+ 59y
98
+ ··· 190880y 7744)
c
7
, c
12
(y
36
+ 13y
35
+ ··· 18y + 1)(y
99
+ 88y
98
+ ··· 138y 1)
c
8
(y
36
18y
35
+ ··· 10y + 1)
· (y
99
+ 33y
98
+ ··· 28122811583158y 810812003401)
c
10
(y
36
13y
35
+ ··· 16y + 1)
· (y
99
46y
98
+ ··· + 118391676y 36481)
25