11a

115

(K11a

115

)

A knot diagram

Linearized knot diagam

5 1 7 10 2 9 3 11 4 6 8

Solving Sequence

1,5

2 3

6,8

7 11 9 10 4

, c

Ideals for irreducible components

of X

par

= h3.32851 × 10

102

− 1.61333 × 10

103

+ ··· + 2.32216 × 10

103

b + 2.92650 × 10

103

− 2.22107 × 10

103

+ 8.11330 × 10

103

+ ··· + 2.32216 × 10

103

a + 2.42675 × 10

104

− 3u

+ ··· + 10u + 1i

= h−2u

− 2u

+ ··· + b − 3, −4u

− 5u

+ ··· + a − 3, u

+ 2u

+ ··· + 2u + 1i

* 2 irreducible components of dim

= 0, with total 96 representations.

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).

All coeﬃcients of polynomials are rational numbers. But the coeﬃcients are sometimes approximated

in decimal forms when there is not enough margin.

I. I

= h3.33 × 10

102

− 1.61 × 10

103

+ · · · + 2.32 × 10

103

b + 2.93 ×

103

, −2.22 × 10

103

+ 8.11 × 10

103

+ · · · + 2.32 × 10

103

a + 2.43 ×

104

, u

− 3u

+ · · · + 10u + 1i

(i) Arc colorings















−u

+ 1





−u

+ u





0.956467u

− 3.49386u

+ ··· + 58.2139u − 10.4504

−0.143337u

+ 0.694752u

+ ··· − 11.2798u − 1.26025





0.623458u

− 2.49883u

+ ··· + 44.5704u − 11.9913

−0.180850u

+ 0.890365u

+ ··· − 11.7000u − 1.33932





−0.963362u

+ 3.15022u

+ ··· − 117.362u − 14.6971

−0.255022u

+ 0.791044u

+ ··· − 5.96319u + 0.0156746





−0.580789u

+ 1.58696u

+ ··· − 51.0047u − 13.6034

0.323044u

− 1.22096u

+ ··· − 4.39700u + 0.102187





−1.25538u

+ 3.66967u

+ ··· − 115.076u − 14.3275

−0.0438473u

+ 0.659953u

+ ··· − 4.39108u + 0.00274049





1.66912u

− 5.04900u

+ ··· + 142.099u + 20.3371

−0.229652u

+ 0.323047u

+ ··· + 9.44012u + 0.185234





1.66912u

− 5.04900u

+ ··· + 142.099u + 20.3371

−0.229652u

+ 0.323047u

+ ··· + 9.44012u + 0.185234



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.440746u

+ 0.132996u

+ ··· + 82.1887u + 8.36358

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 3u

+ ··· − 10u + 1

+ 27u

+ ··· − 82u + 1

, c

+ u

+ ··· + 658u + 59

, c

+ u

+ ··· − 2u + 1

+ 10u

+ ··· + 194051u + 23683

, c

− 4u

+ ··· − 1235u + 271

− 2u

+ ··· − 34703u + 4663

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 27y

+ ··· + 82y + 1

+ 57y

+ ··· + 3662y + 1

, c

+ 73y

+ ··· − 596276y + 3481

, c

− 59y

+ ··· − 128y + 1

− 36y

+ ··· − 17292910371y + 560884489

, c

+ 60y

+ ··· − 1616823y + 73441

− 32y

+ ··· − 28280283y + 21743569

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.919382 + 0.415096I

a = −0.319202 − 0.766497I

b = 0.705973 − 0.119570I

−1.84172 − 1.54832I 0

u = 0.919382 − 0.415096I

a = −0.319202 + 0.766497I

b = 0.705973 + 0.119570I

−1.84172 + 1.54832I 0

u = 0.651027 + 0.778881I

a = 0.651319 − 0.808354I

b = 0.351881 − 0.133943I

6.48100 − 3.09388I 0

u = 0.651027 − 0.778881I

a = 0.651319 + 0.808354I

b = 0.351881 + 0.133943I

6.48100 + 3.09388I 0

u = 0.980487 + 0.091787I

a = −0.786643 + 0.077505I

b = −0.441029 − 0.187587I

−1.67404 − 0.08608I 0

u = 0.980487 − 0.091787I

a = −0.786643 − 0.077505I

b = −0.441029 + 0.187587I

−1.67404 + 0.08608I 0

u = −0.510641 + 0.879678I

a = −0.07433 + 1.43681I

b = −0.084266 − 1.336750I

7.01017 + 0.55763I 0

u = −0.510641 − 0.879678I

a = −0.07433 − 1.43681I

b = −0.084266 + 1.336750I

7.01017 − 0.55763I 0

u = −0.683117 + 0.756267I

a = 0.68410 + 2.40034I

b = −0.175954 − 1.224060I

6.61578 − 3.90393I 0

u = −0.683117 − 0.756267I

a = 0.68410 − 2.40034I

b = −0.175954 + 1.224060I

6.61578 + 3.90393I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.912558 + 0.348343I

a = 0.947042 + 0.537303I

b = 0.787513 − 0.609067I

−2.10532 + 3.54417I 0

u = −0.912558 − 0.348343I

a = 0.947042 − 0.537303I

b = 0.787513 + 0.609067I

−2.10532 − 3.54417I 0

u = −0.854307 + 0.613428I

a = −0.502806 − 0.147246I

b = −0.520280 − 0.175145I

2.08259 + 2.42309I 0

u = −0.854307 − 0.613428I

a = −0.502806 + 0.147246I

b = −0.520280 + 0.175145I

2.08259 − 2.42309I 0

u = 0.785103 + 0.701110I

a = 0.29828 + 1.88835I

b = 0.165797 − 1.365190I

10.31720 + 0.07253I 0

u = 0.785103 − 0.701110I

a = 0.29828 − 1.88835I

b = 0.165797 + 1.365190I

10.31720 − 0.07253I 0

u = −1.051310 + 0.134686I

a = −0.534104 + 0.782333I

b = −0.661388 − 0.288377I

1.42489 + 4.47911I 0

u = −1.051310 − 0.134686I

a = −0.534104 − 0.782333I

b = −0.661388 + 0.288377I

1.42489 − 4.47911I 0

u = 0.823137 + 0.670951I

a = −1.04974 + 1.76751I

b = 0.110492 − 1.219630I

2.31988 + 0.18759I 0

u = 0.823137 − 0.670951I

a = −1.04974 − 1.76751I

b = 0.110492 + 1.219630I

2.31988 − 0.18759I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.625258 + 0.864565I

a = −0.58964 − 1.50488I

b = 0.43046 + 1.58093I

8.01275 − 4.37942I 0

u = −0.625258 − 0.864565I

a = −0.58964 + 1.50488I

b = 0.43046 − 1.58093I

8.01275 + 4.37942I 0

u = 0.721996 + 0.787512I

a = 0.391090 + 0.643123I

b = −1.205930 + 0.306716I

7.57591 + 4.18168I 0

u = 0.721996 − 0.787512I

a = 0.391090 − 0.643123I

b = −1.205930 − 0.306716I

7.57591 − 4.18168I 0

u = −0.646393 + 0.857994I

a = −0.57056 − 1.86291I

b = −0.330634 + 1.210310I

6.63045 + 2.08529I 0

u = −0.646393 − 0.857994I

a = −0.57056 + 1.86291I

b = −0.330634 − 1.210310I

6.63045 − 2.08529I 0

u = 1.091450 + 0.073360I

a = −0.785955 + 0.496692I

b = −0.428556 − 1.064990I

0.82847 − 3.56102I 0

u = 1.091450 − 0.073360I

a = −0.785955 − 0.496692I

b = −0.428556 + 1.064990I

0.82847 + 3.56102I 0

u = −0.900766 + 0.062670I

a = 0.07406 + 1.84676I

b = −0.241501 + 1.105310I

6.20657 − 0.98958I − 60.902681 + 0.10I

u = −0.900766 − 0.062670I

a = 0.07406 − 1.84676I

b = −0.241501 − 1.105310I

6.20657 + 0.98958I − 60.902681 + 0.10I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.796237 + 0.760422I

a = 0.738120 − 1.145030I

b = −0.63396 + 1.61284I

11.42440 − 2.49625I 0

u = 0.796237 − 0.760422I

a = 0.738120 + 1.145030I

b = −0.63396 − 1.61284I

11.42440 + 2.49625I 0

u = −0.867555 + 0.688655I

a = −0.353143 + 0.969190I

b = 1.57794 + 0.12915I

1.69309 + 2.65199I 0

u = −0.867555 − 0.688655I

a = −0.353143 − 0.969190I

b = 1.57794 − 0.12915I

1.69309 − 2.65199I 0

u = 0.897871 + 0.675237I

a = 0.98099 − 2.00046I

b = 0.327853 + 1.299700I

2.08862 − 5.40076I 0

u = 0.897871 − 0.675237I

a = 0.98099 + 2.00046I

b = 0.327853 − 1.299700I

2.08862 + 5.40076I 0

u = −0.471260 + 0.715322I

a = 0.367913 + 0.003194I

b = −0.577762 + 0.019556I

3.10549 − 1.21428I −6 − 0.932552 + 0.10I

u = −0.471260 − 0.715322I

a = 0.367913 − 0.003194I

b = −0.577762 − 0.019556I

3.10549 + 1.21428I −6 − 0.932552 + 0.10I

u = 0.934384 + 0.682083I

a = 2.19405 − 1.31253I

b = 0.209204 + 1.238200I

9.85296 − 5.39790I 0

u = 0.934384 − 0.682083I

a = 2.19405 + 1.31253I

b = 0.209204 − 1.238200I

9.85296 + 5.39790I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.806544 + 0.123097I

a = 0.539789 + 0.141829I

b = 0.637200 + 0.917242I

−1.17381 − 1.68388I 0.83726 − 6.01771I

u = −0.806544 − 0.123097I

a = 0.539789 − 0.141829I

b = 0.637200 − 0.917242I

−1.17381 + 1.68388I 0.83726 + 6.01771I

u = 0.940160 + 0.729085I

a = −1.30654 + 1.57774I

b = −0.76597 − 1.46965I

10.98100 − 3.15371I 0

u = 0.940160 − 0.729085I

a = −1.30654 − 1.57774I

b = −0.76597 + 1.46965I

10.98100 + 3.15371I 0

u = 0.785464 + 0.142913I

a = 0.62353 − 1.64939I

b = 0.831715 + 0.510792I

−1.32910 − 0.60787I −3.50485 − 2.67829I

u = 0.785464 − 0.142913I

a = 0.62353 + 1.64939I

b = 0.831715 − 0.510792I

−1.32910 + 0.60787I −3.50485 + 2.67829I

u = −1.053060 + 0.586459I

a = −0.023473 − 0.712350I

b = −0.590557 + 0.019641I

1.39270 + 6.19483I 0

u = −1.053060 − 0.586459I

a = −0.023473 + 0.712350I

b = −0.590557 − 0.019641I

1.39270 − 6.19483I 0

u = 0.650281 + 1.026430I

a = 0.39794 − 1.45251I

b = −0.44162 + 1.48170I

13.3117 + 9.8514I 0

u = 0.650281 − 1.026430I

a = 0.39794 + 1.45251I

b = −0.44162 − 1.48170I

13.3117 − 9.8514I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.003170 + 0.699177I

a = −1.20363 − 2.06396I

b = −0.276298 + 1.317430I

5.65322 + 9.45248I 0

u = −1.003170 − 0.699177I

a = −1.20363 + 2.06396I

b = −0.276298 − 1.317430I

5.65322 − 9.45248I 0

u = 0.991949 + 0.723933I

a = 0.029164 + 0.815832I

b = −1.324200 − 0.107360I

6.75517 − 9.89412I 0

u = 0.991949 − 0.723933I

a = 0.029164 − 0.815832I

b = −1.324200 + 0.107360I

6.75517 + 9.89412I 0

u = 1.224710 + 0.112853I

a = 0.237600 + 0.305151I

b = 0.268395 + 1.179100I

1.03395 − 3.16868I 0

u = 1.224710 − 0.112853I

a = 0.237600 − 0.305151I

b = 0.268395 − 1.179100I

1.03395 + 3.16868I 0

u = 1.025600 + 0.727427I

a = 0.186084 + 0.163814I

b = 0.616269 − 0.163910I

5.36964 − 2.62564I 0

u = 1.025600 − 0.727427I

a = 0.186084 − 0.163814I

b = 0.616269 + 0.163910I

5.36964 + 2.62564I 0

u = −1.058580 + 0.726505I

a = 1.27853 + 1.47897I

b = 0.60139 − 1.55104I

6.70371 + 10.29660I 0

u = −1.058580 − 0.726505I

a = 1.27853 − 1.47897I

b = 0.60139 + 1.55104I

6.70371 − 10.29660I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.040720 + 0.774309I

a = 0.70860 + 1.25362I

b = −0.097731 − 1.271840I

5.46363 + 3.99334I 0

u = −1.040720 − 0.774309I

a = 0.70860 − 1.25362I

b = −0.097731 + 1.271840I

5.46363 − 3.99334I 0

u = −1.098500 + 0.730187I

a = −1.24857 − 1.08059I

b = −0.254548 + 1.221860I

5.29888 + 5.39356I 0

u = −1.098500 − 0.730187I

a = −1.24857 + 1.08059I

b = −0.254548 − 1.221860I

5.29888 − 5.39356I 0

u = 1.115900 + 0.788410I

a = −1.18485 + 1.48176I

b = −0.55541 − 1.48099I

11.8295 − 16.4283I 0

u = 1.115900 − 0.788410I

a = −1.18485 − 1.48176I

b = −0.55541 + 1.48099I

11.8295 + 16.4283I 0

u = 0.45896 + 1.35957I

a = −0.065261 + 1.254430I

b = 0.046387 − 1.281840I

10.84600 − 2.03461I 0

u = 0.45896 − 1.35957I

a = −0.065261 − 1.254430I

b = 0.046387 + 1.281840I

10.84600 + 2.03461I 0

u = −1.43030 + 0.30968I

a = −0.462230 − 0.259484I

b = −0.251800 + 1.189590I

4.19571 + 7.76962I 0

u = −1.43030 − 0.30968I

a = −0.462230 + 0.259484I

b = −0.251800 − 1.189590I

4.19571 − 7.76962I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.489302 + 0.114434I

a = −1.24057 + 1.69081I

b = −0.11108 − 1.50372I

7.78823 + 1.62906I −3.05008 − 4.47531I

u = −0.489302 − 0.114434I

a = −1.24057 − 1.69081I

b = −0.11108 + 1.50372I

7.78823 − 1.62906I −3.05008 + 4.47531I

u = 1.24794 + 0.95730I

a = 0.717195 − 1.121420I

b = 0.280618 + 1.201350I

8.51017 − 5.96874I 0

u = 1.24794 − 0.95730I

a = 0.717195 + 1.121420I

b = 0.280618 − 1.201350I

8.51017 + 5.96874I 0

u = 0.013339 + 0.320104I

a = −1.39879 − 0.45191I

b = 0.373310 + 0.454562I

−0.078062 − 1.100560I −1.42175 + 6.23894I

u = 0.013339 − 0.320104I

a = −1.39879 + 0.45191I

b = 0.373310 − 0.454562I

−0.078062 + 1.100560I −1.42175 − 6.23894I

u = −0.0520369 + 0.1011840I

a = −15.3453 + 3.5674I

b = −0.351925 − 0.721276I

5.14575 − 3.44483I 3.90868 + 8.31277I

u = −0.0520369 − 0.1011840I

a = −15.3453 − 3.5674I

b = −0.351925 + 0.721276I

5.14575 + 3.44483I 3.90868 − 8.31277I

II. I

h−2u

−2u

+· · ·+b −3, −4u

−5u

+· · ·+a −3, u

+2u

+· · ·+2u +1i

(i) Arc colorings















−u

+ 1





−u

+ u





+ 5u

+ ··· + 3u + 3

+ 2u

+ ··· + 5u + 3





+ 3u

+ ··· + 3u + 1

+ 2u

+ ··· + 6u + 3





+ 6u

+ ··· + 4u + 8

−2u

− 4u

+ ··· + 9u

− 1





− 3u

+ ··· + 9u

− 4

−u

− 3u

+ ··· + 4u + 3





+ 7u

+ ··· + 3u + 6

−u

− 2u

+ ··· + 2u + 2





+ 4u

+ ··· − 13u

+ 5

−u

+ 4u

+ ··· − u + 2





+ 4u

+ ··· − 13u

+ 5

−u

+ 4u

+ ··· − u + 2



(ii) Obstruction class = 1

(iii) Cusp Shapes = 4u

+ 12u

+ 7u

− 17u

− 12u

+ 41u

+ 54u

− 33u

−

85u

+ 12u

+ 97u

− u

− 90u

− 6u

+ 70u

+ 18u

− 28u − 16

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 2u

+ ··· + 2u + 1

+ 8u

+ ··· + 8u + 1

+ 10u

+ ··· − 6u + 1

− 6u

+ ··· + 9u

+ 1

− 2u

+ ··· − 2u + 1

+ 3u

+ ··· + 7u + 1

+ 10u

+ ··· + 6u + 1

− 3u

+ ··· − 3u + 1

− 6u

+ ··· + 9u

+ 1

+ u

+ ··· + u + 1

+ 3u

+ ··· + 3u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 8y

+ ··· − 8y + 1

+ 12y

+ ··· + 8y + 1

, c

+ 20y

+ ··· + 2y + 1

, c

− 12y

+ ··· + 18y + 1

− 5y

+ ··· − 17y + 1

, c

+ 11y

+ ··· + 7y + 1

− 5y

+ ··· − 9y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.600980 + 0.789755I

a = −0.005827 + 0.968886I

b = 0.244466 − 1.282710I

9.11732 − 1.68939I 4.72142 + 2.78192I

u = 0.600980 − 0.789755I

a = −0.005827 − 0.968886I

b = 0.244466 + 1.282710I

9.11732 + 1.68939I 4.72142 − 2.78192I

u = 0.882213 + 0.342814I

a = 0.473394 + 1.217710I

b = −0.686177 − 0.146117I

−1.03138 − 1.46977I 0.74998 + 4.28225I

u = 0.882213 − 0.342814I

a = 0.473394 − 1.217710I

b = −0.686177 + 0.146117I

−1.03138 + 1.46977I 0.74998 − 4.28225I

u = −0.867359 + 0.630592I

a = −0.069787 − 0.673710I

b = −1.169260 − 0.096853I

0.76282 + 2.46662I −3.87434 − 2.61953I

u = −0.867359 − 0.630592I

a = −0.069787 + 0.673710I

b = −1.169260 + 0.096853I

0.76282 − 2.46662I −3.87434 + 2.61953I

u = 0.878300 + 0.073533I

a = −0.610367 + 0.158854I

b = −0.545461 − 0.836793I

−1.39353 − 2.18547I −5.73139 + 7.17501I

u = 0.878300 − 0.073533I

a = −0.610367 − 0.158854I

b = −0.545461 + 0.836793I

−1.39353 + 2.18547I −5.73139 − 7.17501I

u = −1.141810 + 0.444651I

a = −0.300052 + 0.568408I

b = 0.123838 − 0.630055I

2.86239 + 5.92628I 1.35739 − 5.49734I

u = −1.141810 − 0.444651I

a = −0.300052 − 0.568408I

b = 0.123838 + 0.630055I

2.86239 − 5.92628I 1.35739 + 5.49734I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.963245 + 0.833701I

a = 1.17457 − 1.26015I

b = 0.342226 + 1.036720I

8.06866 − 4.51985I 3.88251 + 3.07468I

u = 0.963245 − 0.833701I

a = 1.17457 + 1.26015I

b = 0.342226 − 1.036720I

8.06866 + 4.51985I 3.88251 − 3.07468I

u = −0.667472 + 0.285364I

a = −1.11513 + 2.54893I

b = 0.325026 + 0.632338I

4.80242 − 2.81861I −1.84387 − 0.52056I

u = −0.667472 − 0.285364I

a = −1.11513 − 2.54893I

b = 0.325026 − 0.632338I

4.80242 + 2.81861I −1.84387 + 0.52056I

u = −0.482522 + 0.541462I

a = −0.41220 + 2.30716I

b = 0.04482 − 1.43171I

8.48319 − 0.98511I 5.24254 − 0.71087I

u = −0.482522 − 0.541462I

a = −0.41220 − 2.30716I

b = 0.04482 + 1.43171I

8.48319 + 0.98511I 5.24254 + 0.71087I

u = −1.165580 + 0.721113I

a = −1.13459 − 1.06778I

b = −0.179481 + 1.292250I

6.16158 + 6.28946I 3.99576 − 6.33325I

u = −1.165580 − 0.721113I

a = −1.13459 + 1.06778I

b = −0.179481 − 1.292250I

6.16158 − 6.28946I 3.99576 + 6.33325I

III. u-Polynomials

Crossings u-Polynomials at each crossing

+ 2u

+ ··· + 2u + 1)(u

+ 3u

+ ··· − 10u + 1)

+ 8u

+ ··· + 8u + 1)(u

+ 27u

+ ··· − 82u + 1)

+ 10u

+ ··· − 6u + 1)(u

+ u

+ ··· + 658u + 59)

− 6u

+ ··· + 9u

+ 1)(u

+ u

+ ··· − 2u + 1)

− 2u

+ ··· − 2u + 1)(u

+ 3u

+ ··· − 10u + 1)

+ 3u

+ ··· + 7u + 1)(u

+ 10u

+ ··· + 194051u + 23683)

+ 10u

+ ··· + 6u + 1)(u

+ u

+ ··· + 658u + 59)

− 3u

+ ··· − 3u + 1)(u

− 4u

+ ··· − 1235u + 271)

− 6u

+ ··· + 9u

+ 1)(u

+ u

+ ··· − 2u + 1)

+ u

+ ··· + u + 1)(u

− 2u

+ ··· − 34703u + 4663)

+ 3u

+ ··· + 3u + 1)(u

− 4u

+ ··· − 1235u + 271)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

− 8y

+ ··· − 8y + 1)(y

− 27y

+ ··· + 82y + 1)

+ 12y

+ ··· + 8y + 1)(y

+ 57y

+ ··· + 3662y + 1)

, c

+ 20y

+ ··· + 2y + 1)(y

+ 73y

+ ··· − 596276y + 3481)

, c

− 12y

+ ··· + 18y + 1)(y

− 59y

+ ··· − 128y + 1)

− 5y

+ ··· − 17y + 1)

· (y

− 36y

+ ··· − 17292910371y + 560884489)

, c

+ 11y

+ ··· + 7y + 1)(y

+ 60y

+ ··· − 1616823y + 73441)

− 5y

+ ··· − 9y + 1)

· (y

− 32y

+ ··· − 28280283y + 21743569)