12a

0441

(K12a

0441

)

A knot diagram

Linearized knot diagam

3 6 10 9 2 5 11 12 1 8 7 4

Solving Sequence

7,11

8 12

4,9

5 1 6 10 3 2

, c

Ideals for irreducible components

of X

par

= h3.27711 × 10

102

101

+ 1.55836 × 10

103

100

+ ··· + 2.62772 × 10

103

b − 1.25743 × 10

103

3.78313 × 10

102

101

− 5.58370 × 10

102

100

+ ··· + 2.62772 × 10

103

a − 4.51200 × 10

103

, u

102

+ 2u

101

+ ··· + 4u − 1i

= hb − u + 1, u

+ a + 1, u

− u

+ 2u − 1i

* 2 irreducible components of dim

= 0, with total 105 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

= h3.28 × 10

102

101

+ 1.56 × 10

103

100

+ · · · + 2.63 × 10

103

b − 1.26 ×

103

, 3.78 × 10

102

101

− 5.58 × 10

102

100

+ · · · + 2.63 × 10

103

a − 4.51 ×

103

, u

102

+ 2u

101

+ · · · + 4u − 1i

(i) Arc colorings















−u





−0.143970u

101

+ 0.212492u

100

+ ··· − 15.9951u + 1.71708

−0.124713u

101

− 0.593046u

100

+ ··· − 1.79673u + 0.478524





−u

− u

+ 1

+ 2u





−0.0438647u

101

+ 0.121507u

100

+ ··· − 17.6760u + 1.94288

0.0129440u

101

+ 0.0941687u

100

+ ··· − 2.42475u + 0.661696





0.340303u

101

+ 0.920651u

100

+ ··· + 4.12833u − 3.41343

0.0802727u

101

− 0.159772u

100

+ ··· + 5.51631u − 0.420576





0.280386u

101

+ 0.439282u

100

+ ··· + 4.90809u − 0.660980

0.0907918u

101

+ 0.172191u

100

+ ··· + 2.45351u − 0.598287





+ u





−0.0822981u

101

+ 0.0664369u

100

+ ··· − 18.3878u + 2.28500

0.0138280u

101

+ 0.101020u

100

+ ··· − 3.05023u + 0.777047





−0.0489390u

101

− 0.0545099u

100

+ ··· − 0.777862u − 1.55095

0.00990874u

101

− 0.00655573u

100

+ ··· + 2.52993u + 0.271094



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.789125u

101

− 1.26697u

100

+ ··· − 29.4788u − 4.11553

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

102

+ 32u

101

+ ··· − 3u + 1

, c

102

+ 4u

101

+ ··· + 11u + 1

102

+ 2u

101

+ ··· + 5470u − 5977

102

+ 4u

101

+ ··· − 19212u + 1231

, c

102

− 2u

101

+ ··· − 4u − 1

102

+ 2u

101

+ ··· − 18596u − 1873

102

− 7u

101

+ ··· − 12u + 8

102

+ 10u

101

+ ··· + u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

102

+ 80y

101

+ ··· + 523y + 1

, c

102

− 32y

101

+ ··· + 3y + 1

102

− 126y

101

+ ··· − 2034750148y + 35724529

102

− 98y

101

+ ··· − 154232356y + 1515361

, c

102

+ 90y

101

+ ··· − 76y + 1

102

− 14y

101

+ ··· − 28907108y + 3508129

102

− 21y

101

+ ··· − 2512y + 64

102

+ 4y

101

+ ··· + 3y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.342733 + 0.923254I

a = 1.25977 + 1.12229I

b = −0.051328 − 0.792366I

−2.25655 − 4.00745I 0

u = −0.342733 − 0.923254I

a = 1.25977 − 1.12229I

b = −0.051328 + 0.792366I

−2.25655 + 4.00745I 0

u = −0.514550 + 0.838295I

a = 1.20538 + 1.04569I

b = 0.070366 − 0.834664I

3.88303 − 9.31616I 0

u = −0.514550 − 0.838295I

a = 1.20538 − 1.04569I

b = 0.070366 + 0.834664I

3.88303 + 9.31616I 0

u = 0.425257 + 0.838879I

a = 0.879897 + 0.420710I

b = −0.375466 + 0.246656I

−1.98033 − 3.36359I 0

u = 0.425257 − 0.838879I

a = 0.879897 − 0.420710I

b = −0.375466 − 0.246656I

−1.98033 + 3.36359I 0

u = −0.500531 + 0.793245I

a = −1.22432 − 1.03190I

b = −0.093334 + 0.814325I

4.68549 − 3.34925I 0

u = −0.500531 − 0.793245I

a = −1.22432 + 1.03190I

b = −0.093334 − 0.814325I

4.68549 + 3.34925I 0

u = 0.933119 + 0.035557I

a = −0.0065528 + 0.1389500I

b = −0.001034 − 0.823033I

−0.53243 + 2.66744I 0

u = 0.933119 − 0.035557I

a = −0.0065528 − 0.1389500I

b = −0.001034 + 0.823033I

−0.53243 − 2.66744I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.808708 + 0.440383I

a = −0.208416 − 0.088095I

b = 0.060032 − 0.647083I

0.21594 − 5.19806I 0

u = 0.808708 − 0.440383I

a = −0.208416 + 0.088095I

b = 0.060032 + 0.647083I

0.21594 + 5.19806I 0

u = −0.010693 + 1.087270I

a = −1.62121 − 0.96416I

b = 0.706796 + 0.696680I

1.33913 − 1.67285I 0

u = −0.010693 − 1.087270I

a = −1.62121 + 0.96416I

b = 0.706796 − 0.696680I

1.33913 + 1.67285I 0

u = 0.740386 + 0.492813I

a = 0.260593 + 0.176271I

b = −0.072170 + 0.583829I

0.478204 + 0.201766I 0

u = 0.740386 − 0.492813I

a = 0.260593 − 0.176271I

b = −0.072170 − 0.583829I

0.478204 − 0.201766I 0

u = −0.812573 + 0.288229I

a = −0.117709 − 0.083189I

b = 0.73296 + 1.64728I

2.13668 + 13.96830I −6.00000 − 9.62755I

u = −0.812573 − 0.288229I

a = −0.117709 + 0.083189I

b = 0.73296 − 1.64728I

2.13668 − 13.96830I −6.00000 + 9.62755I

u = 0.829100 + 0.228200I

a = −0.0236605 + 0.0272508I

b = −0.027412 − 0.754278I

−3.97163 − 1.15270I −20.5841 + 5.1449I

u = 0.829100 − 0.228200I

a = −0.0236605 − 0.0272508I

b = −0.027412 + 0.754278I

−3.97163 + 1.15270I −20.5841 − 5.1449I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.790346 + 0.296589I

a = 0.153251 + 0.039686I

b = −0.73825 − 1.64533I

3.07625 + 7.87052I −4.36541 − 5.15887I

u = −0.790346 − 0.296589I

a = 0.153251 − 0.039686I

b = −0.73825 + 1.64533I

3.07625 − 7.87052I −4.36541 + 5.15887I

u = −0.199745 + 1.154830I

a = 1.47863 + 1.38460I

b = −0.302032 − 1.143370I

−0.89312 + 2.34840I 0

u = −0.199745 − 1.154830I

a = 1.47863 − 1.38460I

b = −0.302032 + 1.143370I

−0.89312 − 2.34840I 0

u = −0.766287 + 0.215154I

a = 0.0300001 + 0.0787510I

b = 0.73843 + 1.63200I

−4.47188 + 8.10704I −11.13307 − 8.33149I

u = −0.766287 − 0.215154I

a = 0.0300001 − 0.0787510I

b = 0.73843 − 1.63200I

−4.47188 − 8.10704I −11.13307 + 8.33149I

u = 0.500154 + 1.103880I

a = 1.049060 + 0.042967I

b = −0.630409 + 0.460401I

2.74383 − 7.71085I 0

u = 0.500154 − 1.103880I

a = 1.049060 − 0.042967I

b = −0.630409 − 0.460401I

2.74383 + 7.71085I 0

u = 0.155063 + 1.233840I

a = 1.24065 + 1.16763I

b = −1.10883 − 1.73815I

5.11217 + 0.61098I 0

u = 0.155063 − 1.233840I

a = 1.24065 − 1.16763I

b = −1.10883 + 1.73815I

5.11217 − 0.61098I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.452368 + 1.162730I

a = −1.143030 + 0.022639I

b = 0.723069 − 0.486545I

3.16141 − 2.23441I 0

u = 0.452368 − 1.162730I

a = −1.143030 − 0.022639I

b = 0.723069 + 0.486545I

3.16141 + 2.23441I 0

u = 0.038972 + 1.250760I

a = −1.002410 − 0.513576I

b = 0.98835 + 1.28441I

5.01539 − 4.42939I 0

u = 0.038972 − 1.250760I

a = −1.002410 + 0.513576I

b = 0.98835 − 1.28441I

5.01539 + 4.42939I 0

u = 0.197981 + 1.258870I

a = −2.35159 − 0.10811I

b = 1.89635 − 0.03836I

2.06036 − 2.18071I 0

u = 0.197981 − 1.258870I

a = −2.35159 + 0.10811I

b = 1.89635 + 0.03836I

2.06036 + 2.18071I 0

u = −0.686380 + 0.231259I

a = 0.086597 − 0.289788I

b = −0.73508 − 1.64042I

−0.56630 + 4.76337I −4.66700 − 7.02795I

u = −0.686380 − 0.231259I

a = 0.086597 + 0.289788I

b = −0.73508 + 1.64042I

−0.56630 − 4.76337I −4.66700 + 7.02795I

u = 0.223234 + 1.299150I

a = 2.27543 + 2.56027I

b = −2.10409 − 2.82514I

1.70310 − 2.94491I 0

u = 0.223234 − 1.299150I

a = 2.27543 − 2.56027I

b = −2.10409 + 2.82514I

1.70310 + 2.94491I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.657256 + 0.131190I

a = 0.225297 + 0.506371I

b = 0.77257 + 1.69014I

−3.90267 + 0.82212I −12.21728 − 6.17449I

u = −0.657256 − 0.131190I

a = 0.225297 − 0.506371I

b = 0.77257 − 1.69014I

−3.90267 − 0.82212I −12.21728 + 6.17449I

u = −0.617707 + 0.239610I

a = 1.37527 + 0.42240I

b = 0.739097 − 0.917208I

3.02844 + 6.45887I −4.21756 − 8.81537I

u = −0.617707 − 0.239610I

a = 1.37527 − 0.42240I

b = 0.739097 + 0.917208I

3.02844 − 6.45887I −4.21756 + 8.81537I

u = −0.177916 + 1.330800I

a = −0.99335 + 1.18279I

b = 1.55957 + 0.12336I

1.96203 + 2.33421I 0

u = −0.177916 − 1.330800I

a = −0.99335 − 1.18279I

b = 1.55957 − 0.12336I

1.96203 − 2.33421I 0

u = 0.225615 + 1.345060I

a = 2.80377 + 1.41185I

b = −2.43909 − 1.61759I

6.34710 − 6.20555I 0

u = 0.225615 − 1.345060I

a = 2.80377 − 1.41185I

b = −2.43909 + 1.61759I

6.34710 + 6.20555I 0

u = 0.210413 + 1.349260I

a = −2.82627 − 1.27891I

b = 2.43475 + 1.45854I

6.53621 − 0.46405I 0

u = 0.210413 − 1.349260I

a = −2.82627 + 1.27891I

b = 2.43475 − 1.45854I

6.53621 + 0.46405I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.564461 + 0.288826I

a = −1.45930 − 0.55769I

b = −0.656253 + 0.805623I

4.06468 + 0.52556I −1.22749 − 3.19069I

u = −0.564461 − 0.288826I

a = −1.45930 + 0.55769I

b = −0.656253 − 0.805623I

4.06468 − 0.52556I −1.22749 + 3.19069I

u = −0.257602 + 1.349260I

a = −2.53428 − 0.90364I

b = 1.69422 + 1.98927I

0.78505 + 4.13766I 0

u = −0.257602 − 1.349260I

a = −2.53428 + 0.90364I

b = 1.69422 − 1.98927I

0.78505 − 4.13766I 0

u = 0.242875 + 1.359570I

a = 0.97200 − 1.04626I

b = −0.72711 + 1.42868I

3.38448 − 3.66037I 0

u = 0.242875 − 1.359570I

a = 0.97200 + 1.04626I

b = −0.72711 − 1.42868I

3.38448 + 3.66037I 0

u = 0.602639 + 0.125822I

a = −0.448733 − 0.049040I

b = 0.340562 + 0.820327I

−1.36014 − 0.57030I −7.00686 + 0.66688I

u = 0.602639 − 0.125822I

a = −0.448733 + 0.049040I

b = 0.340562 − 0.820327I

−1.36014 + 0.57030I −7.00686 − 0.66688I

u = −0.152168 + 1.381700I

a = −2.36104 − 1.32263I

b = 1.38536 + 1.86708I

9.51148 − 1.78647I 0

u = −0.152168 − 1.381700I

a = −2.36104 + 1.32263I

b = 1.38536 − 1.86708I

9.51148 + 1.78647I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.058050 + 1.390210I

a = −0.214325 − 0.385890I

b = 0.432491 + 1.037990I

4.90639 − 4.31612I 0

u = 0.058050 − 1.390210I

a = −0.214325 + 0.385890I

b = 0.432491 − 1.037990I

4.90639 + 4.31612I 0

u = −0.100985 + 1.388210I

a = 0.439921 − 0.436767I

b = −0.848224 − 0.452009I

6.93748 − 0.32378I 0

u = −0.100985 − 1.388210I

a = 0.439921 + 0.436767I

b = −0.848224 + 0.452009I

6.93748 + 0.32378I 0

u = −0.178930 + 1.391970I

a = 2.40118 + 1.27682I

b = −1.45376 − 1.92801I

10.02930 + 4.70521I 0

u = −0.178930 − 1.391970I

a = 2.40118 − 1.27682I

b = −1.45376 + 1.92801I

10.02930 − 4.70521I 0

u = 0.593982

a = 2.73604

b = −2.20828

−2.38410 54.6630

u = 0.583003 + 0.101933I

a = 2.45217 + 0.05429I

b = −1.70633 + 0.09811I

1.74385 − 3.26779I 2.88737 − 10.90513I

u = 0.583003 − 0.101933I

a = 2.45217 − 0.05429I

b = −1.70633 − 0.09811I

1.74385 + 3.26779I 2.88737 + 10.90513I

u = −0.190695 + 0.559763I

a = −1.34414 − 1.17459I

b = −0.160913 + 0.440826I

1.11243 − 1.44612I 0.13718 + 1.97472I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.190695 − 0.559763I

a = −1.34414 + 1.17459I

b = −0.160913 − 0.440826I

1.11243 + 1.44612I 0.13718 − 1.97472I

u = −0.246055 + 1.387440I

a = 0.121500 + 1.311960I

b = 0.773792 − 0.480688I

8.20256 + 9.62941I 0

u = −0.246055 − 1.387440I

a = 0.121500 − 1.311960I

b = 0.773792 + 0.480688I

8.20256 − 9.62941I 0

u = −0.22191 + 1.39757I

a = 0.020878 − 1.176100I

b = −0.822452 + 0.305397I

9.42255 + 3.42449I 0

u = −0.22191 − 1.39757I

a = 0.020878 + 1.176100I

b = −0.822452 − 0.305397I

9.42255 − 3.42449I 0

u = −0.27472 + 1.38951I

a = 2.35251 + 1.00781I

b = −1.61512 − 1.94063I

4.58757 + 8.26514I 0

u = −0.27472 − 1.38951I

a = 2.35251 − 1.00781I

b = −1.61512 + 1.94063I

4.58757 − 8.26514I 0

u = 0.34342 + 1.37583I

a = −1.072820 + 0.491427I

b = 0.745414 − 0.899850I

1.06522 − 5.38443I 0

u = 0.34342 − 1.37583I

a = −1.072820 − 0.491427I

b = 0.745414 + 0.899850I

1.06522 + 5.38443I 0

u = −0.31148 + 1.38686I

a = −2.25082 − 0.95011I

b = 1.61105 + 1.90755I

0.60926 + 12.00430I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.31148 − 1.38686I

a = −2.25082 + 0.95011I

b = 1.61105 − 1.90755I

0.60926 − 12.00430I 0

u = 0.546311 + 0.122192I

a = −2.39457 − 0.12609I

b = 1.57755 − 0.07278I

1.85856 + 2.29830I −0.8280 − 14.5266I

u = 0.546311 − 0.122192I

a = −2.39457 + 0.12609I

b = 1.57755 + 0.07278I

1.85856 − 2.29830I −0.8280 + 14.5266I

u = −0.31557 + 1.42872I

a = 2.20776 + 1.04807I

b = −1.59195 − 1.92018I

8.5800 + 11.8770I 0

u = −0.31557 − 1.42872I

a = 2.20776 − 1.04807I

b = −1.59195 + 1.92018I

8.5800 − 11.8770I 0

u = −0.32703 + 1.42851I

a = −2.18439 − 1.04009I

b = 1.58858 + 1.91809I

7.6091 + 18.0913I 0

u = −0.32703 − 1.42851I

a = −2.18439 + 1.04009I

b = 1.58858 − 1.91809I

7.6091 − 18.0913I 0

u = −0.394024 + 0.351464I

a = 1.012870 − 0.727446I

b = −0.69461 − 1.41217I

4.60683 + 2.47380I −0.27300 − 5.84452I

u = −0.394024 − 0.351464I

a = 1.012870 + 0.727446I

b = −0.69461 + 1.41217I

4.60683 − 2.47380I −0.27300 + 5.84452I

u = 0.29807 + 1.47853I

a = 0.803266 − 0.456206I

b = −0.489347 + 0.902235I

6.74208 − 3.64259I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.29807 − 1.47853I

a = 0.803266 + 0.456206I

b = −0.489347 − 0.902235I

6.74208 + 3.64259I 0

u = 0.32601 + 1.47662I

a = −0.852223 + 0.429271I

b = 0.532308 − 0.869967I

6.32365 − 9.37051I 0

u = 0.32601 − 1.47662I

a = −0.852223 − 0.429271I

b = 0.532308 + 0.869967I

6.32365 + 9.37051I 0

u = −0.04746 + 1.51688I

a = −0.149728 − 0.206078I

b = −0.283967 − 0.439872I

12.42370 − 1.87684I 0

u = −0.04746 − 1.51688I

a = −0.149728 + 0.206078I

b = −0.283967 + 0.439872I

12.42370 + 1.87684I 0

u = −0.02637 + 1.52770I

a = 0.192831 + 0.142910I

b = 0.225667 + 0.481937I

11.9305 − 7.9869I 0

u = −0.02637 − 1.52770I

a = 0.192831 − 0.142910I

b = 0.225667 − 0.481937I

11.9305 + 7.9869I 0

u = −0.274164 + 0.383680I

a = −1.44345 + 0.76664I

b = 0.73919 + 1.26681I

4.13708 − 3.56002I −0.866491 + 0.092998I

u = −0.274164 − 0.383680I

a = −1.44345 − 0.76664I

b = 0.73919 − 1.26681I

4.13708 + 3.56002I −0.866491 − 0.092998I

u = −0.469679

a = 2.06635

b = 1.26384

−2.34235 7.23550

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.157431 + 0.042000I

a = −3.47332 − 1.95737I

b = 0.632255 + 0.234499I

−1.37921 − 0.33811I −8.16224 + 0.09301I

u = 0.157431 − 0.042000I

a = −3.47332 + 1.95737I

b = 0.632255 − 0.234499I

−1.37921 + 0.33811I −8.16224 − 0.09301I

II. I

= hb − u + 1, u

+ a + 1, u

− u

+ 2u − 1i

(i) Arc colorings















−u





−u

− 1

u − 1





− u + 1





−u

+ u − 2

−1





− u + 1





−u

+ u − 1

−1





− u + 1





−u

+ u − 2

−1





−1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −5u

+ 4u − 16

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

− u

+ 1

, c

(u + 1)

− u

+ 2u − 1

+ u

− 1

, c

+ u

+ 2u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

− y

+ 2y −1

, c

+ 3y

+ 2y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.215080 + 1.307140I

a = 0.662359 − 0.562280I

b = −0.78492 + 1.30714I

1.37919 − 2.82812I −6.82789 + 2.41717I

u = 0.215080 − 1.307140I

a = 0.662359 + 0.562280I

b = −0.78492 − 1.30714I

1.37919 + 2.82812I −6.82789 − 2.41717I

u = 0.569840

a = −1.32472

b = −0.430160

−2.75839 −15.3440

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

102

+ 32u

101

+ ··· − 3u + 1)

((u − 1)

)(u

102

+ 4u

101

+ ··· + 11u + 1)

− u

+ 1)(u

102

+ 2u

101

+ ··· + 5470u − 5977)

− u

+ 1)(u

102

+ 4u

101

+ ··· − 19212u + 1231)

((u + 1)

)(u

102

+ 4u

101

+ ··· + 11u + 1)

((u + 1)

)(u

102

+ 32u

101

+ ··· − 3u + 1)

− u

+ 2u − 1)(u

102

− 2u

101

+ ··· − 4u − 1)

+ u

− 1)(u

102

+ 2u

101

+ ··· − 18596u − 1873)

102

− 7u

101

+ ··· − 12u + 8)

, c

+ u

+ 2u + 1)(u

102

− 2u

101

+ ··· − 4u − 1)

((u − 1)

)(u

102

+ 10u

101

+ ··· + u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y −1)

)(y

102

+ 80y

101

+ ··· + 523y + 1)

, c

((y −1)

)(y

102

− 32y

101

+ ··· + 3y + 1)

− y

+ 2y −1)(y

102

− 126y

101

+ ··· − 2.03475 × 10

y + 3.57245 × 10

)

− y

+ 2y −1)(y

102

− 98y

101

+ ··· − 1.54232 × 10

y + 1515361)

, c

+ 3y

+ 2y −1)(y

102

+ 90y

101

+ ··· − 76y + 1)

− y

+ 2y −1)(y

102

− 14y

101

+ ··· − 2.89071 × 10

y + 3508129)

102

− 21y

101

+ ··· − 2512y + 64)

((y −1)

)(y

102

+ 4y

101

+ ··· + 3y + 1)