12a
0661
(K12a
0661
)
A knot diagram
1
Linearized knot diagam
3 7 10 12 9 2 11 6 5 1 8 4
Solving Sequence
5,9
6
10,12
4 1 3 8 11 7 2
c
5
c
9
c
4
c
12
c
3
c
8
c
11
c
7
c
2
c
1
, c
6
, c
10
Ideals for irreducible components
2
of X
par
I
u
1
= h1.59089 × 10
353
u
123
1.96420 × 10
353
u
122
+ ··· + 7.82191 × 10
352
b 4.85657 × 10
355
,
2.33244 × 10
354
u
123
+ 5.54408 × 10
354
u
122
+ ··· + 1.31326 × 10
354
a + 2.61506 × 10
356
,
u
124
3u
123
+ ··· + 4171u 319i
I
u
2
= h32u
27
63u
26
+ ··· + 22b + 65, 17u
27
+ 40u
26
+ ··· + 22a + 49, u
28
2u
27
+ ··· + u + 1i
* 2 irreducible components of dim
C
= 0, with total 152 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
= h1.59 × 10
353
u
123
1.96 × 10
353
u
122
+ · · · + 7.82 × 10
352
b 4.86 ×
10
355
, 2.33 × 10
354
u
123
+ 5.54 × 10
354
u
122
+ · · · + 1.31 × 10
354
a + 2.62 ×
10
356
, u
124
3u
123
+ · · · + 4171u 319i
(i) Arc colorings
a
5
=
1
0
a
9
=
0
u
a
6
=
1
u
2
a
10
=
u
u
a
12
=
1.77607u
123
4.22163u
122
+ ··· + 2217.05u 199.128
2.03388u
123
+ 2.51115u
122
+ ··· 7748.62u + 620.894
a
4
=
1.23259u
123
+ 8.43210u
122
+ ··· + 12260.0u 932.343
0.0162502u
123
3.39877u
122
+ ··· 8118.89u + 620.437
a
1
=
4.98442u
123
+ 11.2275u
122
+ ··· 6449.73u + 557.288
5.43166u
123
10.8386u
122
+ ··· + 11192.9u 944.221
a
3
=
0.895133u
123
0.148738u
122
+ ··· + 6098.03u 490.749
2.11147u
123
+ 5.18207u
122
+ ··· 1956.92u + 178.843
a
8
=
u
u
3
+ u
a
11
=
3.01341u
123
3.45919u
122
+ ··· + 12483.9u 1004.07
2.56402u
123
+ 0.714711u
122
+ ··· 15750.0u + 1243.31
a
7
=
0.792892u
123
+ 6.91093u
122
+ ··· + 11727.3u 896.399
0.0882374u
123
6.99881u
122
+ ··· 17800.5u + 1367.38
a
2
=
0.642959u
123
5.37935u
122
+ ··· 8165.53u + 603.004
0.669866u
123
+ 8.55200u
122
+ ··· + 16249.6u 1239.38
(ii) Obstruction class = 1
(iii) Cusp Shapes = 5.71275u
123
19.2191u
122
+ ··· 9360.80u + 669.914
2
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
124
+ 53u
123
+ ··· + 1650235u + 58081
c
2
, c
6
u
124
3u
123
+ ··· + 95u + 241
c
3
u
124
+ u
123
+ ··· 408u 55
c
4
, c
12
u
124
+ 7u
123
+ ··· + 7155u + 259
c
5
, c
8
, c
9
u
124
3u
123
+ ··· + 4171u 319
c
7
, c
11
u
124
3u
123
+ ··· + 19246u 26113
c
10
u
124
2u
123
+ ··· 2298u + 527
3
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
124
+ 51y
123
+ ··· 72457205119y + 3373402561
c
2
, c
6
y
124
53y
123
+ ··· 1650235y + 58081
c
3
y
124
+ 17y
123
+ ··· + 165626y + 3025
c
4
, c
12
y
124
+ 85y
123
+ ··· 5023131y + 67081
c
5
, c
8
, c
9
y
124
+ 119y
123
+ ··· 1789209y + 101761
c
7
, c
11
y
124
79y
123
+ ··· 23009909482y + 681888769
c
10
y
124
22y
123
+ ··· 29497508y + 277729
4
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.504282 + 0.902735I
a = 0.388663 + 0.724722I
b = 0.234266 1.313250I
7.97101 + 0.79758I 0
u = 0.504282 0.902735I
a = 0.388663 0.724722I
b = 0.234266 + 1.313250I
7.97101 0.79758I 0
u = 0.947892 + 0.452882I
a = 0.644349 + 0.387865I
b = 0.459402 + 1.284200I
3.24896 + 7.73036I 0
u = 0.947892 0.452882I
a = 0.644349 0.387865I
b = 0.459402 1.284200I
3.24896 7.73036I 0
u = 0.900733 + 0.289936I
a = 0.097473 + 0.619378I
b = 0.487317 + 0.871281I
1.79193 0.08524I 0
u = 0.900733 0.289936I
a = 0.097473 0.619378I
b = 0.487317 0.871281I
1.79193 + 0.08524I 0
u = 1.002870 + 0.401166I
a = 0.638222 + 0.448627I
b = 0.487194 + 1.282810I
5.1392 13.5247I 0
u = 1.002870 0.401166I
a = 0.638222 0.448627I
b = 0.487194 1.282810I
5.1392 + 13.5247I 0
u = 0.896422 + 0.179606I
a = 0.258572 + 0.780564I
b = 0.022835 + 0.622639I
0.393906 + 0.302555I 0
u = 0.896422 0.179606I
a = 0.258572 0.780564I
b = 0.022835 0.622639I
0.393906 0.302555I 0
5
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.909648 + 0.043217I
a = 0.285133 + 0.622969I
b = 0.458642 + 0.592270I
1.07158 + 4.12928I 0
u = 0.909648 0.043217I
a = 0.285133 0.622969I
b = 0.458642 0.592270I
1.07158 4.12928I 0
u = 0.796957 + 0.421910I
a = 0.010145 + 0.600230I
b = 0.443302 + 0.965747I
2.03802 3.71379I 0
u = 0.796957 0.421910I
a = 0.010145 0.600230I
b = 0.443302 0.965747I
2.03802 + 3.71379I 0
u = 0.117259 + 1.113920I
a = 0.055084 + 0.158443I
b = 0.02660 + 1.46337I
3.48714 + 2.18174I 0
u = 0.117259 1.113920I
a = 0.055084 0.158443I
b = 0.02660 1.46337I
3.48714 2.18174I 0
u = 0.807862 + 0.325208I
a = 0.823787 + 0.381386I
b = 0.46573 + 1.34417I
9.66366 5.49117I 0
u = 0.807862 0.325208I
a = 0.823787 0.381386I
b = 0.46573 1.34417I
9.66366 + 5.49117I 0
u = 0.745149 + 0.419234I
a = 0.124235 + 1.113360I
b = 0.216959 + 0.372234I
1.30994 + 4.47965I 0
u = 0.745149 0.419234I
a = 0.124235 1.113360I
b = 0.216959 0.372234I
1.30994 4.47965I 0
6
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.104485 + 1.148760I
a = 2.19169 + 0.27765I
b = 0.665752 1.000520I
0.34726 + 7.02419I 0
u = 0.104485 1.148760I
a = 2.19169 0.27765I
b = 0.665752 + 1.000520I
0.34726 7.02419I 0
u = 0.430582 + 0.684588I
a = 0.375412 0.538398I
b = 0.642590 + 0.173830I
1.38631 + 3.84395I 0
u = 0.430582 0.684588I
a = 0.375412 + 0.538398I
b = 0.642590 0.173830I
1.38631 3.84395I 0
u = 0.712947 + 0.359366I
a = 1.202130 0.257704I
b = 0.019519 1.155380I
3.93027 + 0.75546I 0
u = 0.712947 0.359366I
a = 1.202130 + 0.257704I
b = 0.019519 + 1.155380I
3.93027 0.75546I 0
u = 0.030322 + 1.204310I
a = 2.02526 0.30899I
b = 0.100756 + 0.779464I
0.26881 6.67008I 0
u = 0.030322 1.204310I
a = 2.02526 + 0.30899I
b = 0.100756 0.779464I
0.26881 + 6.67008I 0
u = 0.067198 + 1.203350I
a = 1.37448 + 0.37769I
b = 0.157333 + 0.910151I
1.38517 + 0.70482I 0
u = 0.067198 1.203350I
a = 1.37448 0.37769I
b = 0.157333 0.910151I
1.38517 0.70482I 0
7
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.520172 + 0.535108I
a = 0.714713 0.008125I
b = 0.34669 + 1.41996I
3.11709 + 3.34793I 0
u = 0.520172 0.535108I
a = 0.714713 + 0.008125I
b = 0.34669 1.41996I
3.11709 3.34793I 0
u = 0.022941 + 1.257170I
a = 1.51304 0.28977I
b = 0.196338 + 0.761079I
2.56225 + 2.07639I 0
u = 0.022941 1.257170I
a = 1.51304 + 0.28977I
b = 0.196338 0.761079I
2.56225 2.07639I 0
u = 0.616998 + 0.409583I
a = 0.453826 0.370339I
b = 0.916220 + 0.055975I
1.13619 8.54756I 0
u = 0.616998 0.409583I
a = 0.453826 + 0.370339I
b = 0.916220 0.055975I
1.13619 + 8.54756I 0
u = 0.151254 + 0.711841I
a = 0.309803 0.662722I
b = 0.592611 + 0.280560I
2.39918 + 0.77305I 0
u = 0.151254 0.711841I
a = 0.309803 + 0.662722I
b = 0.592611 0.280560I
2.39918 0.77305I 0
u = 0.940187 + 0.860928I
a = 0.383824 + 0.163093I
b = 0.252477 1.092460I
2.21455 1.50809I 0
u = 0.940187 0.860928I
a = 0.383824 0.163093I
b = 0.252477 + 1.092460I
2.21455 + 1.50809I 0
8
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.678385 + 0.203441I
a = 0.83068 1.31041I
b = 0.242725 1.106060I
3.78635 + 1.93964I 15.4912 3.6171I
u = 0.678385 0.203441I
a = 0.83068 + 1.31041I
b = 0.242725 + 1.106060I
3.78635 1.93964I 15.4912 + 3.6171I
u = 0.228702 + 1.278140I
a = 0.767641 0.584509I
b = 0.710329 + 0.468045I
2.93412 + 0.26963I 0
u = 0.228702 1.278140I
a = 0.767641 + 0.584509I
b = 0.710329 0.468045I
2.93412 0.26963I 0
u = 0.117928 + 1.295930I
a = 1.97704 + 0.77611I
b = 1.30936 0.75163I
1.19950 2.15348I 0
u = 0.117928 1.295930I
a = 1.97704 0.77611I
b = 1.30936 + 0.75163I
1.19950 + 2.15348I 0
u = 0.385636 + 1.243190I
a = 1.60490 0.21718I
b = 0.566228 1.047800I
1.24012 4.61231I 0
u = 0.385636 1.243190I
a = 1.60490 + 0.21718I
b = 0.566228 + 1.047800I
1.24012 + 4.61231I 0
u = 0.694381 + 0.063734I
a = 0.478395 0.576036I
b = 0.342338 0.269747I
0.475457 0.163530I 8.00000 + 0.I
u = 0.694381 0.063734I
a = 0.478395 + 0.576036I
b = 0.342338 + 0.269747I
0.475457 + 0.163530I 8.00000 + 0.I
9
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.031703 + 1.303800I
a = 1.75239 + 0.59787I
b = 0.85630 1.20445I
3.28375 2.87621I 0
u = 0.031703 1.303800I
a = 1.75239 0.59787I
b = 0.85630 + 1.20445I
3.28375 + 2.87621I 0
u = 0.056567 + 1.305550I
a = 0.59729 + 1.66988I
b = 0.51023 2.15585I
1.31237 4.02163I 0
u = 0.056567 1.305550I
a = 0.59729 1.66988I
b = 0.51023 + 2.15585I
1.31237 + 4.02163I 0
u = 0.358190 + 0.592334I
a = 0.237523 + 0.440505I
b = 0.224983 + 0.989083I
2.23416 + 1.35912I 10.39246 3.66826I
u = 0.358190 0.592334I
a = 0.237523 0.440505I
b = 0.224983 0.989083I
2.23416 1.35912I 10.39246 + 3.66826I
u = 0.039852 + 1.309440I
a = 0.008779 + 0.212177I
b = 0.01595 + 1.53551I
3.78139 1.96855I 0
u = 0.039852 1.309440I
a = 0.008779 0.212177I
b = 0.01595 1.53551I
3.78139 + 1.96855I 0
u = 0.544286 + 0.415050I
a = 1.16305 1.68151I
b = 0.388049 1.133720I
1.41055 + 7.76478I 10.06194 9.01309I
u = 0.544286 0.415050I
a = 1.16305 + 1.68151I
b = 0.388049 + 1.133720I
1.41055 7.76478I 10.06194 + 9.01309I
10
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.900943 + 0.995750I
a = 0.275334 + 0.223540I
b = 0.320610 1.103600I
3.54723 + 7.13827I 0
u = 0.900943 0.995750I
a = 0.275334 0.223540I
b = 0.320610 + 1.103600I
3.54723 7.13827I 0
u = 0.623610 + 0.203731I
a = 1.87691 0.86027I
b = 0.046437 1.233880I
5.97175 4.98863I 16.5066 + 6.8379I
u = 0.623610 0.203731I
a = 1.87691 + 0.86027I
b = 0.046437 + 1.233880I
5.97175 + 4.98863I 16.5066 6.8379I
u = 0.137884 + 1.346450I
a = 0.993595 0.530091I
b = 0.450750 + 0.471679I
3.49429 + 1.97776I 0
u = 0.137884 1.346450I
a = 0.993595 + 0.530091I
b = 0.450750 0.471679I
3.49429 1.97776I 0
u = 0.149302 + 1.382170I
a = 1.73513 0.96625I
b = 1.01688 + 1.00728I
0.204948 + 0.798549I 0
u = 0.149302 1.382170I
a = 1.73513 + 0.96625I
b = 1.01688 1.00728I
0.204948 0.798549I 0
u = 0.444232 + 0.417608I
a = 0.494420 0.554229I
b = 0.877959 + 0.175876I
1.00789 + 3.02626I 5.24811 6.49636I
u = 0.444232 0.417608I
a = 0.494420 + 0.554229I
b = 0.877959 0.175876I
1.00789 3.02626I 5.24811 + 6.49636I
11
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.242539 + 1.384710I
a = 1.82170 + 0.65347I
b = 0.204281 1.058920I
0.89855 8.15019I 0
u = 0.242539 1.384710I
a = 1.82170 0.65347I
b = 0.204281 + 1.058920I
0.89855 + 8.15019I 0
u = 0.280586 + 1.382860I
a = 1.64430 + 0.09415I
b = 0.386956 1.161700I
1.24837 + 5.46311I 0
u = 0.280586 1.382860I
a = 1.64430 0.09415I
b = 0.386956 + 1.161700I
1.24837 5.46311I 0
u = 0.18183 + 1.43369I
a = 1.45458 + 0.15252I
b = 0.53993 1.33073I
5.79641 5.39823I 0
u = 0.18183 1.43369I
a = 1.45458 0.15252I
b = 0.53993 + 1.33073I
5.79641 + 5.39823I 0
u = 0.16541 + 1.45041I
a = 1.13211 + 1.19035I
b = 0.122509 0.956774I
1.43371 0.56609I 0
u = 0.16541 1.45041I
a = 1.13211 1.19035I
b = 0.122509 + 0.956774I
1.43371 + 0.56609I 0
u = 0.18515 + 1.45139I
a = 1.65451 + 0.21380I
b = 1.386840 0.091908I
7.02450 + 5.46071I 0
u = 0.18515 1.45139I
a = 1.65451 0.21380I
b = 1.386840 + 0.091908I
7.02450 5.46071I 0
12
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.222202 + 0.485662I
a = 0.22456 + 2.61671I
b = 0.1200250 0.0458072I
3.28127 1.12229I 4.47243 + 8.54784I
u = 0.222202 0.485662I
a = 0.22456 2.61671I
b = 0.1200250 + 0.0458072I
3.28127 + 1.12229I 4.47243 8.54784I
u = 0.22214 + 1.45283I
a = 1.44751 + 0.05543I
b = 0.47886 1.34270I
4.58118 + 10.67500I 0
u = 0.22214 1.45283I
a = 1.44751 0.05543I
b = 0.47886 + 1.34270I
4.58118 10.67500I 0
u = 0.422208 + 0.315122I
a = 0.98607 2.05854I
b = 0.390370 1.083910I
0.09412 3.05257I 6.04524 + 3.72690I
u = 0.422208 0.315122I
a = 0.98607 + 2.05854I
b = 0.390370 + 1.083910I
0.09412 + 3.05257I 6.04524 3.72690I
u = 0.25832 + 1.45044I
a = 1.285920 + 0.570968I
b = 0.241611 0.942390I
1.91061 + 4.29181I 0
u = 0.25832 1.45044I
a = 1.285920 0.570968I
b = 0.241611 + 0.942390I
1.91061 4.29181I 0
u = 0.23902 + 1.45735I
a = 1.53178 + 0.32946I
b = 1.309600 0.124461I
4.86325 11.72350I 0
u = 0.23902 1.45735I
a = 1.53178 0.32946I
b = 1.309600 + 0.124461I
4.86325 + 11.72350I 0
13
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.31214 + 1.45107I
a = 1.66306 0.57839I
b = 0.70620 + 1.32951I
3.95949 9.54259I 0
u = 0.31214 1.45107I
a = 1.66306 + 0.57839I
b = 0.70620 1.32951I
3.95949 + 9.54259I 0
u = 0.47484 + 1.40869I
a = 1.257530 0.186443I
b = 0.607209 0.930486I
3.28428 9.39538I 0
u = 0.47484 1.40869I
a = 1.257530 + 0.186443I
b = 0.607209 + 0.930486I
3.28428 + 9.39538I 0
u = 0.19439 + 1.48451I
a = 1.50499 0.99050I
b = 0.90836 + 1.47161I
3.36459 + 6.00347I 0
u = 0.19439 1.48451I
a = 1.50499 + 0.99050I
b = 0.90836 1.47161I
3.36459 6.00347I 0
u = 0.27349 + 1.47462I
a = 0.775570 0.386956I
b = 0.779505 + 0.630906I
4.18908 4.20047I 0
u = 0.27349 1.47462I
a = 0.775570 + 0.386956I
b = 0.779505 0.630906I
4.18908 + 4.20047I 0
u = 0.498827
a = 0.902018
b = 1.15687
5.13361 21.5670
u = 0.41823 + 1.44551I
a = 1.209760 0.071430I
b = 0.544467 0.872405I
4.15703 + 4.63775I 0
14
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.41823 1.44551I
a = 1.209760 + 0.071430I
b = 0.544467 + 0.872405I
4.15703 4.63775I 0
u = 0.17219 + 1.49960I
a = 0.870630 0.142226I
b = 0.456490 + 1.064680I
5.50862 + 1.19833I 0
u = 0.17219 1.49960I
a = 0.870630 + 0.142226I
b = 0.456490 1.064680I
5.50862 1.19833I 0
u = 0.27875 + 1.49014I
a = 0.775333 0.121682I
b = 0.387214 + 1.144860I
5.49665 + 4.57399I 0
u = 0.27875 1.49014I
a = 0.775333 + 0.121682I
b = 0.387214 1.144860I
5.49665 4.57399I 0
u = 0.19547 + 1.50356I
a = 0.828673 0.351238I
b = 0.723606 + 0.701469I
4.66193 0.21936I 0
u = 0.19547 1.50356I
a = 0.828673 + 0.351238I
b = 0.723606 0.701469I
4.66193 + 0.21936I 0
u = 0.02579 + 1.51861I
a = 1.230880 0.301812I
b = 1.001380 + 0.078330I
9.71135 + 0.14472I 0
u = 0.02579 1.51861I
a = 1.230880 + 0.301812I
b = 1.001380 0.078330I
9.71135 0.14472I 0
u = 0.08781 + 1.53843I
a = 1.127180 0.293212I
b = 0.905624 0.008097I
8.78533 + 5.62093I 0
15
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.08781 1.53843I
a = 1.127180 + 0.293212I
b = 0.905624 + 0.008097I
8.78533 5.62093I 0
u = 0.35359 + 1.51281I
a = 1.49152 0.39856I
b = 0.66794 + 1.37357I
3.04994 + 12.42370I 0
u = 0.35359 1.51281I
a = 1.49152 + 0.39856I
b = 0.66794 1.37357I
3.04994 12.42370I 0
u = 0.38284 + 1.50608I
a = 1.53232 0.31534I
b = 0.65510 + 1.36948I
0.9574 18.4962I 0
u = 0.38284 1.50608I
a = 1.53232 + 0.31534I
b = 0.65510 1.36948I
0.9574 + 18.4962I 0
u = 0.445092
a = 0.760913
b = 0.213653
0.767850 12.4900
u = 0.370066 + 0.186586I
a = 1.54119 0.27398I
b = 0.59049 + 1.47944I
4.86685 + 2.82154I 25.1217 2.2501I
u = 0.370066 0.186586I
a = 1.54119 + 0.27398I
b = 0.59049 1.47944I
4.86685 2.82154I 25.1217 + 2.2501I
u = 0.221253 + 0.281737I
a = 3.25658 + 2.69055I
b = 0.012966 1.296560I
7.33463 + 1.25650I 21.3205 + 0.2961I
u = 0.221253 0.281737I
a = 3.25658 2.69055I
b = 0.012966 + 1.296560I
7.33463 1.25650I 21.3205 0.2961I
16
Solutions to I
u
1
1(vol +
1CS) Cusp shape
u = 0.295730 + 0.067229I
a = 1.05636 + 1.66278I
b = 0.407383 + 0.943902I
0.42494 + 1.86336I 2.72169 2.56590I
u = 0.295730 0.067229I
a = 1.05636 1.66278I
b = 0.407383 0.943902I
0.42494 1.86336I 2.72169 + 2.56590I
u = 0.07744 + 1.85606I
a = 0.083305 + 0.465229I
b = 0.008774 0.792016I
7.87320 + 3.16787I 0
u = 0.07744 1.85606I
a = 0.083305 0.465229I
b = 0.008774 + 0.792016I
7.87320 3.16787I 0
17
II. I
u
2
= h32u
27
63u
26
+ · · · + 22b + 65, 17u
27
+ 40u
26
+ · · · + 22a +
49, u
28
2u
27
+ · · · + u + 1i
(i) Arc colorings
a
5
=
1
0
a
9
=
0
u
a
6
=
1
u
2
a
10
=
u
u
a
12
=
0.772727u
27
1.81818u
26
+ ··· + 6.50000u 2.22727
1.45455u
27
+ 2.86364u
26
+ ··· 4u 2.95455
a
4
=
3.54545u
27
+ 3.63636u
26
+ ··· 16u 0.545455
3.13636u
27
5.40909u
26
+ ··· + 9.50000u 0.363636
a
1
=
3.09091u
27
+ 11.7727u
26
+ ··· 21.4091u
2
5.59091
31
22
u
27
96
11
u
26
+ ··· +
1
2
u +
9
22
a
3
=
3.45455u
27
+ 6.86364u
26
+ ··· 13u + 2.04545
3.04545u
27
8.63636u
26
+ ··· + 6.50000u 2.95455
a
8
=
u
u
3
+ u
a
11
=
0.227273u
27
+ 0.181818u
26
+ ··· + 6.50000u 2.22727
1.45455u
27
+ 2.86364u
26
+ ··· 3u 2.95455
a
7
=
2.86364u
27
5.59091u
26
+ ··· 2.50000u + 2.36364
2.22727u
27
4.18182u
26
+ ··· + 6.50000u + 3.22727
a
2
=
7.90909u
27
15.2273u
26
+ ··· + 14u 1.59091
9.77273u
27
+ 15.3182u
26
+ ··· 13.5000u 6.27273
(ii) Obstruction class = 1
(iii) Cusp Shapes =
91
22
u
27
295
22
u
26
+ ··· +
29
2
u
81
11
18
(iv) u-Polynomials at the component
Crossings u-Polynomials at each crossing
c
1
u
28
14u
27
+ ··· 15u + 1
c
2
u
28
7u
26
+ ··· u + 1
c
3
u
28
+ 6u
26
+ ··· + 6u + 1
c
4
u
28
+ 14u
26
+ ··· + 3u + 3
c
5
u
28
2u
27
+ ··· + u + 1
c
6
u
28
7u
26
+ ··· + u + 1
c
7
u
28
+ 4u
27
+ ··· + 2u + 1
c
8
, c
9
u
28
+ 2u
27
+ ··· u + 1
c
10
u
28
9u
27
+ ··· 10u
3
+ 1
c
11
u
28
4u
27
+ ··· 2u + 1
c
12
u
28
+ 14u
26
+ ··· 3u + 3
19
(v) Riley Polynomials at the component
Crossings Riley Polynomials at each crossing
c
1
y
28
+ 14y
27
+ ··· + 9y + 1
c
2
, c
6
y
28
14y
27
+ ··· 15y + 1
c
3
y
28
+ 12y
27
+ ··· 6y + 1
c
4
, c
12
y
28
+ 28y
27
+ ··· + 177y + 9
c
5
, c
8
, c
9
y
28
+ 30y
27
+ ··· + 19y + 1
c
7
, c
11
y
28
28y
27
+ ··· 26y + 1
c
10
y
28
7y
27
+ ··· + 68y
2
+ 1
20
(vi) Complex Volumes and Cusp Shapes
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.804478 + 0.472868I
a = 0.375522 + 0.787255I
b = 0.281831 + 0.839942I
0.734153 + 0.905338I 6.91720 2.72610I
u = 0.804478 0.472868I
a = 0.375522 0.787255I
b = 0.281831 0.839942I
0.734153 0.905338I 6.91720 + 2.72610I
u = 0.580547 + 0.584804I
a = 0.88150 + 1.19650I
b = 0.247940 + 0.798534I
2.12904 5.53949I 12.64091 + 5.98852I
u = 0.580547 0.584804I
a = 0.88150 1.19650I
b = 0.247940 0.798534I
2.12904 + 5.53949I 12.64091 5.98852I
u = 0.011069 + 1.215740I
a = 0.370642 + 0.549559I
b = 0.05011 + 1.44205I
4.61591 1.39014I 15.8779 0.7762I
u = 0.011069 1.215740I
a = 0.370642 0.549559I
b = 0.05011 1.44205I
4.61591 + 1.39014I 15.8779 + 0.7762I
u = 0.738809 + 0.020463I
a = 0.308628 0.562536I
b = 0.414400 0.920033I
1.36028 2.10650I 11.09704 + 3.28649I
u = 0.738809 0.020463I
a = 0.308628 + 0.562536I
b = 0.414400 + 0.920033I
1.36028 + 2.10650I 11.09704 3.28649I
u = 0.045826 + 1.295270I
a = 0.96289 1.27451I
b = 0.56816 + 1.84700I
1.31998 + 3.69354I 10.96772 + 4.40456I
u = 0.045826 1.295270I
a = 0.96289 + 1.27451I
b = 0.56816 1.84700I
1.31998 3.69354I 10.96772 4.40456I
21
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.235995 + 1.280910I
a = 2.20073 + 0.13780I
b = 0.444278 0.905839I
0.55796 + 8.46690I 7.04639 10.34121I
u = 0.235995 1.280910I
a = 2.20073 0.13780I
b = 0.444278 + 0.905839I
0.55796 8.46690I 7.04639 + 10.34121I
u = 0.328453 + 1.295300I
a = 1.64606 0.21409I
b = 0.431824 1.033670I
2.27964 4.99742I 4.10228 + 3.81516I
u = 0.328453 1.295300I
a = 1.64606 + 0.21409I
b = 0.431824 + 1.033670I
2.27964 + 4.99742I 4.10228 3.81516I
u = 0.027569 + 0.652001I
a = 0.28745 + 2.30760I
b = 0.029084 1.317530I
6.78004 + 1.52867I 8.26698 5.66051I
u = 0.027569 0.652001I
a = 0.28745 2.30760I
b = 0.029084 + 1.317530I
6.78004 1.52867I 8.26698 + 5.66051I
u = 0.121195 + 1.363620I
a = 1.48577 + 0.72554I
b = 0.656690 0.383032I
0.251713 + 0.544639I 8.30088 1.57925I
u = 0.121195 1.363620I
a = 1.48577 0.72554I
b = 0.656690 + 0.383032I
0.251713 0.544639I 8.30088 + 1.57925I
u = 0.202719 + 1.374900I
a = 0.746580 0.674941I
b = 0.539395 + 0.686147I
3.35075 1.13997I 8.00000 1.34059I
u = 0.202719 1.374900I
a = 0.746580 + 0.674941I
b = 0.539395 0.686147I
3.35075 + 1.13997I 8.00000 + 1.34059I
22
Solutions to I
u
2
1(vol +
1CS) Cusp shape
u = 0.23157 + 1.45507I
a = 1.42061 + 0.61641I
b = 0.73908 1.20862I
3.84154 5.62197I 3.44034 + 3.31186I
u = 0.23157 1.45507I
a = 1.42061 0.61641I
b = 0.73908 + 1.20862I
3.84154 + 5.62197I 3.44034 3.31186I
u = 0.132838 + 0.465619I
a = 0.085985 + 1.255370I
b = 0.23045 1.51287I
4.45222 3.07364I 11.2636 + 8.9173I
u = 0.132838 0.465619I
a = 0.085985 1.255370I
b = 0.23045 + 1.51287I
4.45222 + 3.07364I 11.2636 8.9173I
u = 0.238553 + 0.323922I
a = 0.49736 + 3.09828I
b = 0.223792 + 0.579168I
3.69779 + 0.84739I 19.4814 + 0.4340I
u = 0.238553 0.323922I
a = 0.49736 3.09828I
b = 0.223792 0.579168I
3.69779 0.84739I 19.4814 0.4340I
u = 0.08756 + 1.79835I
a = 0.016112 0.173187I
b = 0.043967 + 0.623109I
8.22808 3.06818I 0
u = 0.08756 1.79835I
a = 0.016112 + 0.173187I
b = 0.043967 0.623109I
8.22808 + 3.06818I 0
23
III. u-Polynomials
Crossings u-Polynomials at each crossing
c
1
(u
28
14u
27
+ ··· 15u + 1)
· (u
124
+ 53u
123
+ ··· + 1650235u + 58081)
c
2
(u
28
7u
26
+ ··· u + 1)(u
124
3u
123
+ ··· + 95u + 241)
c
3
(u
28
+ 6u
26
+ ··· + 6u + 1)(u
124
+ u
123
+ ··· 408u 55)
c
4
(u
28
+ 14u
26
+ ··· + 3u + 3)(u
124
+ 7u
123
+ ··· + 7155u + 259)
c
5
(u
28
2u
27
+ ··· + u + 1)(u
124
3u
123
+ ··· + 4171u 319)
c
6
(u
28
7u
26
+ ··· + u + 1)(u
124
3u
123
+ ··· + 95u + 241)
c
7
(u
28
+ 4u
27
+ ··· + 2u + 1)(u
124
3u
123
+ ··· + 19246u 26113)
c
8
, c
9
(u
28
+ 2u
27
+ ··· u + 1)(u
124
3u
123
+ ··· + 4171u 319)
c
10
(u
28
9u
27
+ ··· 10u
3
+ 1)(u
124
2u
123
+ ··· 2298u + 527)
c
11
(u
28
4u
27
+ ··· 2u + 1)(u
124
3u
123
+ ··· + 19246u 26113)
c
12
(u
28
+ 14u
26
+ ··· 3u + 3)(u
124
+ 7u
123
+ ··· + 7155u + 259)
24
IV. Riley Polynomials
Crossings Riley Polynomials at each crossing
c
1
(y
28
+ 14y
27
+ ··· + 9y + 1)
· (y
124
+ 51y
123
+ ··· 72457205119y + 3373402561)
c
2
, c
6
(y
28
14y
27
+ ··· 15y + 1)
· (y
124
53y
123
+ ··· 1650235y + 58081)
c
3
(y
28
+ 12y
27
+ ··· 6y + 1)(y
124
+ 17y
123
+ ··· + 165626y + 3025)
c
4
, c
12
(y
28
+ 28y
27
+ ··· + 177y + 9)
· (y
124
+ 85y
123
+ ··· 5023131y + 67081)
c
5
, c
8
, c
9
(y
28
+ 30y
27
+ ··· + 19y + 1)
· (y
124
+ 119y
123
+ ··· 1789209y + 101761)
c
7
, c
11
(y
28
28y
27
+ ··· 26y + 1)
· (y
124
79y
123
+ ··· 23009909482y + 681888769)
c
10
(y
28
7y
27
+ ··· + 68y
2
+ 1)
· (y
124
22y
123
+ ··· 29497508y + 277729)
25