12a

0194

(K12a

0194

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

3,10 4,5

2 6 1 9 11 7 8 12

, c

Ideals for irreducible components

of X

par

= h−1.93196 × 10

140

+ 6.66096 × 10

139

+ ··· + 1.09402 × 10

141

b + 3.74745 × 10

141

1.59602 × 10

141

− 1.20857 × 10

140

+ ··· + 2.18804 × 10

141

a − 3.03570 × 10

142

, u

− u

+ ··· − 32u − 64i

= ha, v

+ v

+ b + v + 1, v

+ v

+ 2v

+ v

+ 1i

* 2 irreducible components of dim

= 0, with total 93 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

= h−1.93 × 10

140

+ 6.66 × 10

139

+ · · · + 1.09 × 10

141

b + 3.75 ×

141

, 1.60 × 10

141

− 1.21 × 10

140

+ · · · + 2.19 × 10

141

a − 3.04 ×

142

, u

− u

+ · · · − 32u − 64i

(i) Arc colorings















−0.729429u

+ 0.0552353u

+ ··· + 62.6495u + 13.8741

0.176593u

− 0.0608853u

+ ··· − 15.4584u − 3.42540





0.0681336u

− 0.709362u

+ ··· + 54.5898u + 49.3534

−0.134816u

+ 0.459791u

+ ··· − 32.0043u − 32.4889





0.0681336u

− 0.709362u

+ ··· + 54.5898u + 49.3534

−0.398582u

+ 0.178985u

+ ··· + 15.8456u − 8.54975





−0.0666825u

− 0.249571u

+ ··· + 22.5855u + 16.8646

−0.134816u

+ 0.459791u

+ ··· − 32.0043u − 32.4889





+ u





+ u





−0.368646u

− 0.527148u

+ ··· + 71.9013u + 40.4381

−0.312704u

+ 0.0963934u

+ ··· + 15.1995u − 3.76857





−0.439933u

− 0.447080u

+ ··· + 58.1327u + 22.1757

−0.0174712u

+ 0.0259493u

+ ··· − 0.972693u − 3.56818





0.774940u

− 1.07849u

+ ··· + 41.4842u + 76.3652

−0.00285224u

− 0.0798040u

+ ··· + 8.17160u + 2.44523



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.00629905u

− 0.167117u

+ ··· + 11.7485u + 43.8850

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 30u

+ ··· + 10u − 1

, c

+ 4u

+ ··· + 2u + 1

, c

− u

+ ··· − 32u − 64

, c

− 3u

+ ··· + 313u − 73

, c

+ 3u

+ ··· − u − 1

− 35u

+ ··· − 44032u + 4096

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 58y

+ ··· + 94y −1

, c

+ 30y

+ ··· + 10y −1

, c

+ 35y

+ ··· − 44032y −4096

, c

− 51y

+ ··· − 128331y −5329

, c

+ 73y

+ ··· − 19y −1

+ 23y

+ ··· − 99614720y −16777216

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.611285 + 0.788569I

a = 0.917741 + 0.861333I

b = −0.082818 + 1.004170I

−3.36212 − 2.35337I 0

u = 0.611285 − 0.788569I

a = 0.917741 − 0.861333I

b = −0.082818 − 1.004170I

−3.36212 + 2.35337I 0

u = 0.443560 + 0.899987I

a = 0.644315 − 0.499952I

b = −0.526359 − 1.058500I

−2.47271 − 2.75618I 0

u = 0.443560 − 0.899987I

a = 0.644315 + 0.499952I

b = −0.526359 + 1.058500I

−2.47271 + 2.75618I 0

u = 0.767266 + 0.648567I

a = 1.04401 + 1.12977I

b = 0.055082 + 1.005560I

−6.09885 + 4.42777I 0

u = 0.767266 − 0.648567I

a = 1.04401 − 1.12977I

b = 0.055082 − 1.005560I

−6.09885 − 4.42777I 0

u = 0.277378 + 0.974111I

a = −1.10874 − 1.67118I

b = 0.716351 + 0.750458I

3.27239 + 1.34065I 0

u = 0.277378 − 0.974111I

a = −1.10874 + 1.67118I

b = 0.716351 − 0.750458I

3.27239 − 1.34065I 0

u = 0.678907 + 0.702812I

a = 0.769386 + 0.217668I

b = −0.650762 + 0.511807I

−4.66548 − 1.46210I 0. + 3.02931I

u = 0.678907 − 0.702812I

a = 0.769386 − 0.217668I

b = −0.650762 − 0.511807I

−4.66548 + 1.46210I 0. − 3.02931I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.768238 + 0.688700I

a = 0.634804 + 0.441462I

b = −0.618764 + 1.016630I

−6.05440 − 3.49870I 0

u = −0.768238 − 0.688700I

a = 0.634804 − 0.441462I

b = −0.618764 − 1.016630I

−6.05440 + 3.49870I 0

u = −1.008650 + 0.241433I

a = 0.684736 − 0.311760I

b = −0.725433 − 0.765619I

0.50208 + 3.44185I 0

u = −1.008650 − 0.241433I

a = 0.684736 + 0.311760I

b = −0.725433 + 0.765619I

0.50208 − 3.44185I 0

u = 0.426093 + 0.859319I

a = −3.15793 − 0.28000I

b = 0.652013 − 0.953417I

−2.63778 − 0.82623I 4.00000 + 3.60231I

u = 0.426093 − 0.859319I

a = −3.15793 + 0.28000I

b = 0.652013 + 0.953417I

−2.63778 + 0.82623I 4.00000 − 3.60231I

u = −0.695363 + 0.644567I

a = 1.10625 − 1.01304I

b = 0.026957 − 0.964064I

−1.31652 − 0.83169I 1.65300 + 1.09851I

u = −0.695363 − 0.644567I

a = 1.10625 + 1.01304I

b = 0.026957 + 0.964064I

−1.31652 + 0.83169I 1.65300 − 1.09851I

u = 0.520735 + 0.931628I

a = 0.792847 + 0.788022I

b = −0.164125 + 1.058190I

−3.08368 − 2.00968I 0

u = 0.520735 − 0.931628I

a = 0.792847 − 0.788022I

b = −0.164125 − 1.058190I

−3.08368 + 2.00968I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.005790 + 0.366180I

a = 0.691862 + 0.291804I

b = −0.735938 + 0.721753I

3.86176 + 0.42107I 0

u = 1.005790 − 0.366180I

a = 0.691862 − 0.291804I

b = −0.735938 − 0.721753I

3.86176 − 0.42107I 0

u = 1.006180 + 0.368157I

a = 0.639735 − 0.387808I

b = −0.692514 − 0.944335I

−0.04609 + 1.98521I 0

u = 1.006180 − 0.368157I

a = 0.639735 + 0.387808I

b = −0.692514 + 0.944335I

−0.04609 − 1.98521I 0

u = −0.421885 + 0.985583I

a = −2.66540 + 0.10722I

b = 0.684806 + 0.957414I

2.63586 + 4.03889I 0

u = −0.421885 − 0.985583I

a = −2.66540 − 0.10722I

b = 0.684806 − 0.957414I

2.63586 − 4.03889I 0

u = −0.296732 + 1.041850I

a = 0.777629 − 0.073278I

b = −0.689752 − 0.183697I

0.964622 − 0.562642I 0

u = −0.296732 − 1.041850I

a = 0.777629 + 0.073278I

b = −0.689752 + 0.183697I

0.964622 + 0.562642I 0

u = −0.331769 + 0.849752I

a = 0.664057 + 0.509027I

b = −0.498045 + 1.039790I

1.93817 − 0.98719I 8.58368 − 0.93595I

u = −0.331769 − 0.849752I

a = 0.664057 − 0.509027I

b = −0.498045 − 1.039790I

1.93817 + 0.98719I 8.58368 + 0.93595I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.019790 + 0.453057I

a = 0.692708 − 0.276370I

b = −0.751523 − 0.691973I

−0.55415 − 4.35219I 0

u = −1.019790 − 0.453057I

a = 0.692708 + 0.276370I

b = −0.751523 + 0.691973I

−0.55415 + 4.35219I 0

u = 0.594895 + 0.947229I

a = −0.324433 − 1.258840I

b = 0.746602 + 0.626637I

−3.92192 − 3.46935I 0

u = 0.594895 − 0.947229I

a = −0.324433 + 1.258840I

b = 0.746602 − 0.626637I

−3.92192 + 3.46935I 0

u = 0.149465 + 0.867093I

a = 0.686866 − 0.538383I

b = −0.444261 − 1.034670I

−1.54609 + 4.58317I 5.10158 − 4.29853I

u = 0.149465 − 0.867093I

a = 0.686866 + 0.538383I

b = −0.444261 + 1.034670I

−1.54609 − 4.58317I 5.10158 + 4.29853I

u = 0.411198 + 1.044420I

a = 0.765130 + 0.098490I

b = −0.714320 + 0.248220I

4.23995 − 3.36961I 0

u = 0.411198 − 1.044420I

a = 0.765130 − 0.098490I

b = −0.714320 − 0.248220I

4.23995 + 3.36961I 0

u = −0.740949 + 0.850608I

a = 0.826055 − 0.975867I

b = −0.041288 − 1.076880I

−9.58781 + 2.79623I 0

u = −0.740949 − 0.850608I

a = 0.826055 + 0.975867I

b = −0.041288 + 1.076880I

−9.58781 − 2.79623I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.446275 + 1.037880I

a = −0.71304 + 1.33524I

b = 0.757142 − 0.696856I

2.32576 + 2.18173I 0

u = −0.446275 − 1.037880I

a = −0.71304 − 1.33524I

b = 0.757142 + 0.696856I

2.32576 − 2.18173I 0

u = −1.026800 + 0.483421I

a = 0.628167 + 0.397780I

b = −0.692708 + 0.975062I

3.09256 − 5.88380I 0

u = −1.026800 − 0.483421I

a = 0.628167 − 0.397780I

b = −0.692708 − 0.975062I

3.09256 + 5.88380I 0

u = −0.233192 + 0.805989I

a = −1.13555 + 2.48104I

b = 0.652662 − 0.757523I

−2.01462 − 4.26726I 5.97179 + 2.61130I

u = −0.233192 − 0.805989I

a = −1.13555 − 2.48104I

b = 0.652662 + 0.757523I

−2.01462 + 4.26726I 5.97179 − 2.61130I

u = −0.488848 + 1.054160I

a = 0.753394 − 0.112714I

b = −0.738176 − 0.286575I

−0.22381 + 7.35518I 0

u = −0.488848 − 1.054160I

a = 0.753394 + 0.112714I

b = −0.738176 + 0.286575I

−0.22381 − 7.35518I 0

u = −0.607515 + 0.995263I

a = 0.748024 − 0.842364I

b = −0.136497 − 1.103500I

−0.23467 + 5.86188I 0

u = −0.607515 − 0.995263I

a = 0.748024 + 0.842364I

b = −0.136497 + 1.103500I

−0.23467 − 5.86188I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.043830 + 0.551455I

a = 0.620829 − 0.402944I

b = −0.694009 − 0.993135I

−1.46195 + 9.86196I 0

u = 1.043830 − 0.551455I

a = 0.620829 + 0.402944I

b = −0.694009 + 0.993135I

−1.46195 − 9.86196I 0

u = 0.540953 + 1.061670I

a = −2.32849 − 0.37630I

b = 0.698997 − 0.991276I

1.43879 − 7.72271I 0

u = 0.540953 − 1.061670I

a = −2.32849 + 0.37630I

b = 0.698997 + 0.991276I

1.43879 + 7.72271I 0

u = −0.657070 + 0.997761I

a = −2.30139 + 0.72609I

b = 0.677860 + 1.017760I

−5.07559 + 8.90900I 0

u = −0.657070 − 0.997761I

a = −2.30139 − 0.72609I

b = 0.677860 − 1.017760I

−5.07559 − 8.90900I 0

u = 0.668410 + 0.428154I

a = 0.670160 − 0.423926I

b = −0.603421 − 0.947278I

−0.45864 + 3.05031I 0.11561 − 3.71074I

u = 0.668410 − 0.428154I

a = 0.670160 + 0.423926I

b = −0.603421 + 0.947278I

−0.45864 − 3.05031I 0.11561 + 3.71074I

u = 0.652989 + 1.019560I

a = 0.726453 + 0.866754I

b = −0.122757 + 1.123020I

−4.94082 − 9.82420I 0

u = 0.652989 − 1.019560I

a = 0.726453 − 0.866754I

b = −0.122757 − 1.123020I

−4.94082 + 9.82420I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.527998 + 0.508519I

a = 1.38834 + 0.49257I

b = 0.025988 + 0.717177I

−4.08095 − 1.96025I −2.32551 + 3.82515I

u = 0.527998 − 0.508519I

a = 1.38834 − 0.49257I

b = 0.025988 − 0.717177I

−4.08095 + 1.96025I −2.32551 − 3.82515I

u = −0.250839 + 0.646005I

a = 0.913229 − 0.095011I

b = −0.377028 − 0.231372I

0.322925 + 0.980399I 5.93960 − 6.62047I

u = −0.250839 − 0.646005I

a = 0.913229 + 0.095011I

b = −0.377028 + 0.231372I

0.322925 − 0.980399I 5.93960 + 6.62047I

u = −0.561413 + 1.185130I

a = −0.662931 + 0.987024I

b = 0.824524 − 0.680211I

3.53114 + 2.02176I 0

u = −0.561413 − 1.185130I

a = −0.662931 − 0.987024I

b = 0.824524 + 0.680211I

3.53114 − 2.02176I 0

u = 0.029916 + 1.327490I

a = −1.49885 − 0.68928I

b = 0.804293 + 0.856431I

6.54252 − 1.34989I 0

u = 0.029916 − 1.327490I

a = −1.49885 + 0.68928I

b = 0.804293 − 0.856431I

6.54252 + 1.34989I 0

u = 0.047029 + 1.330660I

a = −1.59556 + 0.59324I

b = 0.798778 − 0.877711I

10.37450 − 2.98463I 0

u = 0.047029 − 1.330660I

a = −1.59556 − 0.59324I

b = 0.798778 + 0.877711I

10.37450 + 2.98463I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.121603 + 1.328060I

a = −1.68238 − 0.49161I

b = 0.792331 + 0.897528I

6.41712 + 7.31572I 0

u = −0.121603 − 1.328060I

a = −1.68238 + 0.49161I

b = 0.792331 − 0.897528I

6.41712 − 7.31572I 0

u = 0.634374 + 1.173840I

a = −2.00540 − 0.45132I

b = 0.722792 − 1.019870I

2.49663 − 7.82179I 0

u = 0.634374 − 1.173840I

a = −2.00540 + 0.45132I

b = 0.722792 + 1.019870I

2.49663 + 7.82179I 0

u = 0.633489 + 1.184630I

a = −0.577053 − 0.930602I

b = 0.836929 + 0.657205I

6.44169 − 6.28675I 0

u = 0.633489 − 1.184630I

a = −0.577053 + 0.930602I

b = 0.836929 − 0.657205I

6.44169 + 6.28675I 0

u = −0.622610 + 0.177262I

a = 0.884623 + 0.156178I

b = 0.346087 − 0.160520I

−2.55006 − 3.29913I 1.11145 + 2.49429I

u = −0.622610 − 0.177262I

a = 0.884623 − 0.156178I

b = 0.346087 + 0.160520I

−2.55006 + 3.29913I 1.11145 − 2.49429I

u = −0.679060 + 1.174990I

a = −0.522511 + 0.901931I

b = 0.842463 − 0.641024I

1.73423 + 10.47340I 0

u = −0.679060 − 1.174990I

a = −0.522511 − 0.901931I

b = 0.842463 + 0.641024I

1.73423 − 10.47340I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.696216 + 1.175180I

a = −1.94109 + 0.54914I

b = 0.720267 + 1.035200I

5.29166 + 12.11040I 0

u = −0.696216 − 1.175180I

a = −1.94109 − 0.54914I

b = 0.720267 − 1.035200I

5.29166 − 12.11040I 0

u = 0.733904 + 1.165900I

a = −1.91300 − 0.61390I

b = 0.716303 − 1.044050I

0.5090 − 16.2964I 0

u = 0.733904 − 1.165900I

a = −1.91300 + 0.61390I

b = 0.716303 + 1.044050I

0.5090 + 16.2964I 0

u = −0.509418 + 0.232441I

a = 0.763520 − 0.371468I

b = −0.541403 − 0.775770I

0.16334 + 1.55638I −0.76791 − 2.56835I

u = −0.509418 − 0.232441I

a = 0.763520 + 0.371468I

b = −0.541403 + 0.775770I

0.16334 − 1.55638I −0.76791 + 2.56835I

u = 0.557201

a = 0.897719

b = 0.285348

1.51878 6.53030

II. I

= ha, v

+ v

+ b + v + 1, v

+ v

+ 2v

+ v

+ 1i

(i) Arc colorings















−v

− v

− v −1





+ v





−v

− v

− v −1

−v

− v





+ v

+ v + 1

+ v













−v

− v

−v

− v





−v

− v





+ v



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v

− 9v

− 8v

− 6v + 1

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

+ u + 1)

, c

− u

+ 1)

+ u

+ 2u + 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

v = 0.206350 + 1.132320I

a = 0

b = −0.500000 + 0.866025I

−3.02413 − 4.85801I −1.45566 + 6.64456I

v = 0.206350 − 1.132320I

a = 0

b = −0.500000 − 0.866025I

−3.02413 + 4.85801I −1.45566 − 6.64456I

v = −1.083790 + 0.387453I

a = 0

b = −0.500000 + 0.866025I

−3.02413 + 0.79824I 2.09851 + 0.12339I

v = −1.083790 − 0.387453I

a = 0

b = −0.500000 − 0.866025I

−3.02413 − 0.79824I 2.09851 − 0.12339I

v = 0.377439 + 0.653743I

a = 0

b = −0.500000 − 0.866025I

1.11345 + 2.02988I 5.85715 − 4.49037I

v = 0.377439 − 0.653743I

a = 0

b = −0.500000 + 0.866025I

1.11345 − 2.02988I 5.85715 + 4.49037I

III. u-Polynomials

Crossings u-Polynomials at each crossing

, c

((u

− u + 1)

)(u

+ 30u

+ ··· + 10u − 1)

((u

+ u + 1)

)(u

+ 4u

+ ··· + 2u + 1)

, c

− u

+ ··· − 32u − 64)

((u

− u + 1)

)(u

+ 4u

+ ··· + 2u + 1)

, c

((u

− u

+ 1)

)(u

− 3u

+ ··· + 313u − 73)

((u

+ u

+ 2u + 1)

)(u

+ 3u

+ ··· − u − 1)

− 35u

+ ··· − 44032u + 4096)

, c

((u

− u

+ 2u − 1)

)(u

+ 3u

+ ··· − u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y

+ y + 1)

)(y

+ 58y

+ ··· + 94y −1)

, c

((y

+ y + 1)

)(y

+ 30y

+ ··· + 10y −1)

, c

+ 35y

+ ··· − 44032y −4096)

, c

((y

− y

+ 2y −1)

)(y

− 51y

+ ··· − 128331y −5329)

, c

((y

+ 3y

+ 2y −1)

)(y

+ 73y

+ ··· − 19y −1)

+ 23y

+ ··· − 9.96147 × 10

y −1.67772 × 10

)