12n

0704

(K12n

0704

)

A knot diagram

Linearized knot diagam

4 10 11 9 1 3 4 1 12 7 6 9

Solving Sequence

4,9 5,12

10 1 2 6 8 7 11 3

, c

Ideals for irreducible components

of X

par

= h1.19445 × 10

198

− 6.74601 × 10

197

+ ··· + 4.55141 × 10

201

b − 1.33536 × 10

201

1.06146 × 10

200

+ 1.69938 × 10

199

+ ··· + 1.77505 × 10

203

a − 2.99606 × 10

203

+ 56u

+ ··· − 1378u + 507i

= h788638025662u

− 78518326905455u

+ ··· + 919477490510109b − 419677061820201,

73623372272275u

− 47637302039197u

+ ··· + 919477490510109a + 2632097779359569,

+ u

+ ··· + 15u + 9i

* 2 irreducible components of dim

= 0, with total 62 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

= h1.19 × 10

198

− 6.75 × 10

197

+ · · · + 4.55 × 10

201

b − 1.34 ×

201

, 1.06 × 10

200

+ 1.70 × 10

199

+ · · · + 1.78 × 10

203

a − 3.00 ×

203

, u

+ 56u

+ · · · − 1378u + 507i

(i) Arc colorings











−u





−0.000597989u

− 0.0000957369u

+ ··· − 1.97693u + 1.68787

−0.000262435u

+ 0.000148218u

+ ··· + 0.754607u + 0.293395





−0.000625366u

− 0.000355332u

+ ··· − 0.368332u + 1.08941

0.0000695995u

+ 0.000148080u

+ ··· + 1.20417u + 0.198918





−0.000597989u

− 0.0000957369u

+ ··· − 1.97693u + 1.68787

−0.000174434u

+ 0.000154808u

+ ··· + 0.583352u + 0.244856





−0.000423555u

− 0.000250544u

+ ··· − 2.56028u + 1.44302

−0.000174434u

+ 0.000154808u

+ ··· + 0.583352u + 0.244856





−0.000392342u

+ 0.0000695995u

+ ··· + 0.902157u + 1.74482

0.000138440u

+ 0.0000385594u

+ ··· + 0.267201u + 0.0758209





0.000625366u

+ 0.000355332u

+ ··· + 0.368332u − 1.08941

−0.0000243237u

− 0.000122334u

+ ··· + 0.623241u − 0.0187641





0.000649690u

+ 0.000477667u

+ ··· − 0.254909u − 1.07065

−0.0000243237u

− 0.000122334u

+ ··· + 0.623241u − 0.0187641





−0.000621843u

− 0.0000319284u

+ ··· + 1.04140u + 2.54422

−0.000195680u

+ 0.0000193035u

+ ··· + 1.10047u + 0.158773





0.000304275u

− 0.000150311u

+ ··· − 2.53168u + 0.571523

−0.000414380u

− 0.0000218287u

+ ··· − 0.337787u + 0.0757931



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.00268732u

+ 0.000514392u

+ ··· − 6.90355u + 4.66863

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 9u

+ ··· − 598194u + 53041

+ 14u

+ ··· − 11u + 1

− 3u

+ ··· − 23u + 3

+ 56u

+ ··· − 1378u + 507

− 2u

+ ··· − 250u + 1279

+ 5u

+ ··· − 9u + 1

+ 15u

+ ··· − 3108u + 149

, c

+ 33u

+ ··· − 141u + 19

− 5u

+ ··· − 51u + 31

− u

+ ··· + 65u + 49

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 93y

+ ··· − 17713407268y + 2813347681

+ 28y

+ ··· + 261y + 1

+ 3y

+ ··· + 5y + 9

+ 112y

+ ··· + 2295020y + 257049

− 108y

+ ··· − 67250928y + 1635841

+ 3y

+ ··· + 9y + 1

+ 30y

+ ··· − 4374634y + 22201

, c

+ 66y

+ ··· + 8809y + 361

+ 13y

+ ··· + 21765y + 961

+ 19y

+ ··· + 55653y + 2401

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.722623 + 0.663783I

a = −0.189781 + 1.081440I

b = −0.761905 + 0.077110I

−4.43282 + 1.52715I −7.37334 − 5.22015I

u = −0.722623 − 0.663783I

a = −0.189781 − 1.081440I

b = −0.761905 − 0.077110I

−4.43282 − 1.52715I −7.37334 + 5.22015I

u = 1.042020 + 0.291189I

a = 0.311194 + 0.202668I

b = 0.527721 + 0.608546I

1.89860 + 0.93839I −4.03451 + 1.19726I

u = 1.042020 − 0.291189I

a = 0.311194 − 0.202668I

b = 0.527721 − 0.608546I

1.89860 − 0.93839I −4.03451 − 1.19726I

u = −0.594177 + 0.677482I

a = 0.97182 − 1.32120I

b = −0.344145 − 0.034677I

−4.23209 + 3.88598I −4.75603 − 4.49965I

u = −0.594177 − 0.677482I

a = 0.97182 + 1.32120I

b = −0.344145 + 0.034677I

−4.23209 − 3.88598I −4.75603 + 4.49965I

u = 0.181031 + 0.824245I

a = −0.373014 + 0.986862I

b = 0.386192 − 0.053287I

0.75821 + 4.93973I 1.37497 − 6.10201I

u = 0.181031 − 0.824245I

a = −0.373014 − 0.986862I

b = 0.386192 + 0.053287I

0.75821 − 4.93973I 1.37497 + 6.10201I

u = −0.168414 + 0.786367I

a = −1.019670 + 0.047056I

b = −0.890177 + 0.606122I

−4.06154 − 0.13020I −4.76095 − 0.53915I

u = −0.168414 − 0.786367I

a = −1.019670 − 0.047056I

b = −0.890177 − 0.606122I

−4.06154 + 0.13020I −4.76095 + 0.53915I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.685524 + 0.242386I

a = 0.634928 + 0.396219I

b = 0.266521 + 0.975007I

1.64805 + 1.08045I 3.15096 − 7.04605I

u = 0.685524 − 0.242386I

a = 0.634928 − 0.396219I

b = 0.266521 − 0.975007I

1.64805 − 1.08045I 3.15096 + 7.04605I

u = −0.606976 + 0.353597I

a = 1.06341 − 1.70650I

b = 0.169419 − 1.237650I

−4.39199 + 5.06705I −1.75956 − 6.04792I

u = −0.606976 − 0.353597I

a = 1.06341 + 1.70650I

b = 0.169419 + 1.237650I

−4.39199 − 5.06705I −1.75956 + 6.04792I

u = 0.082102 + 0.677726I

a = 0.469990 − 0.277050I

b = −0.29228 − 1.51820I

3.41907 − 4.27710I −1.86663 − 0.85536I

u = 0.082102 − 0.677726I

a = 0.469990 + 0.277050I

b = −0.29228 + 1.51820I

3.41907 + 4.27710I −1.86663 + 0.85536I

u = −0.099218 + 0.655160I

a = 1.85892 + 0.20385I

b = −1.099660 + 0.530114I

−2.02807 + 0.89669I −0.59333 − 2.63444I

u = −0.099218 − 0.655160I

a = 1.85892 − 0.20385I

b = −1.099660 − 0.530114I

−2.02807 − 0.89669I −0.59333 + 2.63444I

u = 0.213548 + 0.536576I

a = 1.94510 − 0.08651I

b = 0.391610 + 0.666555I

−1.18834 + 2.94575I 2.79513 − 7.62929I

u = 0.213548 − 0.536576I

a = 1.94510 + 0.08651I

b = 0.391610 − 0.666555I

−1.18834 − 2.94575I 2.79513 + 7.62929I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.225474 + 0.520584I

a = 0.860068 + 0.132577I

b = −0.575467 + 0.297341I

−1.20487 + 1.08188I −2.86879 − 1.93861I

u = −0.225474 − 0.520584I

a = 0.860068 − 0.132577I

b = −0.575467 − 0.297341I

−1.20487 − 1.08188I −2.86879 + 1.93861I

u = −0.529336 + 0.126590I

a = −0.73767 + 1.92374I

b = −0.833828 + 0.084948I

−3.13560 − 2.98726I −2.43600 + 6.69169I

u = −0.529336 − 0.126590I

a = −0.73767 − 1.92374I

b = −0.833828 − 0.084948I

−3.13560 + 2.98726I −2.43600 − 6.69169I

u = 0.362920 + 0.366463I

a = 0.70009 + 2.45399I

b = 0.875473 − 0.158897I

−3.13163 − 10.16720I −0.48934 + 7.57078I

u = 0.362920 − 0.366463I

a = 0.70009 − 2.45399I

b = 0.875473 + 0.158897I

−3.13163 + 10.16720I −0.48934 − 7.57078I

u = −1.47983 + 0.30015I

a = −0.113526 + 0.386179I

b = 0.466727 + 0.213716I

2.38652 − 5.13357I 0

u = −1.47983 − 0.30015I

a = −0.113526 − 0.386179I

b = 0.466727 − 0.213716I

2.38652 + 5.13357I 0

u = 0.206753 + 0.194399I

a = 2.05172 − 0.92917I

b = 0.347573 + 0.385865I

1.35869 + 0.69751I 4.29607 − 0.54875I

u = 0.206753 − 0.194399I

a = 2.05172 + 0.92917I

b = 0.347573 − 0.385865I

1.35869 − 0.69751I 4.29607 + 0.54875I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.82791 + 0.18540I

a = 0.095317 − 0.729148I

b = −0.550395 − 1.005790I

−1.73016 + 2.21015I 0

u = 1.82791 − 0.18540I

a = 0.095317 + 0.729148I

b = −0.550395 + 1.005790I

−1.73016 − 2.21015I 0

u = −0.19250 + 2.63308I

a = 0.671878 − 0.103363I

b = −2.71999 + 0.09262I

−11.36540 + 5.64381I 0

u = −0.19250 − 2.63308I

a = 0.671878 + 0.103363I

b = −2.71999 − 0.09262I

−11.36540 − 5.64381I 0

u = 0.30985 + 2.75631I

a = 0.666351 + 0.066193I

b = −2.79148 + 0.01630I

−17.1201 + 5.1887I 0

u = 0.30985 − 2.75631I

a = 0.666351 − 0.066193I

b = −2.79148 − 0.01630I

−17.1201 − 5.1887I 0

u = −0.49972 + 2.82464I

a = −0.642407 + 0.112172I

b = 2.42127 + 0.01216I

−14.4376 + 0.6038I 0

u = −0.49972 − 2.82464I

a = −0.642407 − 0.112172I

b = 2.42127 − 0.01216I

−14.4376 − 0.6038I 0

u = −0.11803 + 2.94113I

a = −0.598923 + 0.099596I

b = 2.73153 + 0.31584I

−13.8680 + 5.1464I 0

u = −0.11803 − 2.94113I

a = −0.598923 − 0.099596I

b = 2.73153 − 0.31584I

−13.8680 − 5.1464I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.00605 + 3.10643I

a = 0.580378 + 0.060548I

b = −2.92917 − 0.02937I

−13.5048 − 13.8523I 0

u = −0.00605 − 3.10643I

a = 0.580378 − 0.060548I

b = −2.92917 + 0.02937I

−13.5048 + 13.8523I 0

u = −0.37723 + 3.19003I

a = −0.548210 + 0.055625I

b = 2.97114 + 0.61922I

−13.65630 − 3.67082I 0

u = −0.37723 − 3.19003I

a = −0.548210 − 0.055625I

b = 2.97114 − 0.61922I

−13.65630 + 3.67082I 0

u = 0.70791 + 3.28454I

a = −0.491311 − 0.131780I

b = 3.23332 − 0.44420I

−13.12530 − 1.26369I 0

u = 0.70791 − 3.28454I

a = −0.491311 + 0.131780I

b = 3.23332 + 0.44420I

−13.12530 + 1.26369I 0

II.

= h7.89 × 10

− 7.85 × 10

+ · · · + 9.19 × 10

b − 4.20 × 10

, 7.36 ×

−4.76×10

+· · ·+9.19×10

a+2.63×10

, u

+· · ·+15u+9i

(i) Arc colorings











−u





−0.0800709u

+ 0.0518091u

+ ··· − 1.62186u − 2.86260

−0.000857702u

+ 0.0853945u

+ ··· + 1.39867u + 0.456430





0.422782u

+ 0.157685u

+ ··· + 9.37781u + 2.87737

0.0444333u

+ 0.0205806u

+ ··· + 1.43880u + 1.35558





−0.0800709u

+ 0.0518091u

+ ··· − 1.62186u − 2.86260

0.270758u

− 0.0289705u

+ ··· + 2.65623u + 1.64335





−0.350829u

+ 0.0807796u

+ ··· − 4.27809u − 4.50595

0.270758u

− 0.0289705u

+ ··· + 2.65623u + 1.64335





−0.150620u

− 0.106187u

+ ··· − 4.01725u − 0.820503

−0.0851810u

− 0.0130518u

+ ··· − 0.872683u − 0.785729





−0.422782u

− 0.157685u

+ ··· − 9.37781u − 2.87737

0.198744u

− 0.0486526u

+ ··· + 0.732607u + 1.03028





−0.621526u

− 0.109033u

+ ··· − 10.1104u − 3.90765

0.198744u

− 0.0486526u

+ ··· + 0.732607u + 1.03028





0.0797236u

+ 0.0501001u

+ ··· − 2.52386u − 1.58118

0.0894444u

− 0.0458413u

+ ··· + 2.06356u + 0.413661





−0.194771u

+ 0.236670u

+ ··· + 4.93424u − 0.393951

0.175039u

− 0.121465u

+ ··· + 1.06866u + 1.69379



(ii) Obstruction class = 1

(iii) Cusp Shapes

= −

541123579097900

306492496836703

279674211722222

306492496836703

+ ··· −

2560838929027227

306492496836703

u −

1228461990620122

306492496836703

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 10u

+ ··· − 11u + 1

− u

+ ··· + 6u + 1

+ 3u

+ ··· + 2u + 1

+ u

+ ··· + 15u + 9

− u

+ ··· + 91u + 17

− 2u

+ ··· + 2u + 1

+ u

+ ··· − 11u + 5

, c

+ u

+ ··· − 2u + 1

+ 2u

+ ··· + 2u + 1

+ 7u

+ ··· + 8u + 5

− u

+ ··· + 2u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 10y

+ ··· + 5y + 1

+ 15y

+ ··· − 34y + 1

+ 6y

+ ··· + 18y + 1

+ 3y

+ ··· + 513y + 81

− 5y

+ ··· − 427y + 289

+ 2y

+ ··· + 10y + 1

+ 5y

+ ··· − 161y + 25

, c

+ 21y

+ ··· − 14y + 1

+ 4y

+ ··· + 6y + 1

+ 14y

+ ··· + 226y + 25

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.893310 + 0.263570I

a = −0.589954 + 0.134532I

b = −0.554370 + 0.638444I

2.21646 − 1.01376I 22.0835 + 5.4010I

u = −0.893310 − 0.263570I

a = −0.589954 − 0.134532I

b = −0.554370 − 0.638444I

2.21646 + 1.01376I 22.0835 − 5.4010I

u = 0.681825 + 0.479862I

a = −0.346166 + 0.209492I

b = 0.001679 + 1.263930I

3.85961 + 4.70319I 8.55831 − 7.51978I

u = 0.681825 − 0.479862I

a = −0.346166 − 0.209492I

b = 0.001679 − 1.263930I

3.85961 − 4.70319I 8.55831 + 7.51978I

u = −1.238650 + 0.203176I

a = 0.363333 − 1.017220I

b = −0.591621 − 0.222631I

−0.58691 + 2.51670I 3.45399 − 4.44673I

u = −1.238650 − 0.203176I

a = 0.363333 + 1.017220I

b = −0.591621 + 0.222631I

−0.58691 − 2.51670I 3.45399 + 4.44673I

u = 0.274389 + 0.600424I

a = −0.936590 − 1.009320I

b = −0.923402 + 0.053522I

−3.63004 − 1.23018I 1.45254 + 3.84800I

u = 0.274389 − 0.600424I

a = −0.936590 + 1.009320I

b = −0.923402 − 0.053522I

−3.63004 + 1.23018I 1.45254 − 3.84800I

u = −1.396590 + 0.109133I

a = 0.006693 − 0.834622I

b = −0.65590 − 1.38874I

−0.315524 + 0.953488I 0.808208 − 0.633683I

u = −1.396590 − 0.109133I

a = 0.006693 + 0.834622I

b = −0.65590 + 1.38874I

−0.315524 − 0.953488I 0.808208 + 0.633683I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.077983 + 0.460813I

a = −3.11541 + 0.03348I

b = 0.337699 + 0.657908I

−3.44078 − 3.74719I 4.59997 + 2.83303I

u = −0.077983 − 0.460813I

a = −3.11541 − 0.03348I

b = 0.337699 − 0.657908I

−3.44078 + 3.74719I 4.59997 − 2.83303I

u = 2.21181 + 0.23952I

a = 0.007267 + 0.633167I

b = −0.07038 + 1.95938I

−1.01719 − 6.39683I 0.14163 + 5.33600I

u = 2.21181 − 0.23952I

a = 0.007267 − 0.633167I

b = −0.07038 − 1.95938I

−1.01719 + 6.39683I 0.14163 − 5.33600I

u = −0.06149 + 3.20027I

a = −0.555836 − 0.009838I

b = 2.95629 + 0.20169I

−13.53500 − 2.98379I −1.59812 − 0.80751I

u = −0.06149 − 3.20027I

a = −0.555836 + 0.009838I

b = 2.95629 − 0.20169I

−13.53500 + 2.98379I −1.59812 + 0.80751I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 10u

+ ··· − 11u + 1)(u

+ 9u

+ ··· − 598194u + 53041)

− u

+ ··· + 6u + 1)(u

+ 14u

+ ··· − 11u + 1)

+ 3u

+ ··· + 2u + 1)(u

− 3u

+ ··· − 23u + 3)

+ u

+ ··· + 15u + 9)(u

+ 56u

+ ··· − 1378u + 507)

− u

+ ··· + 91u + 17)(u

− 2u

+ ··· − 250u + 1279)

− 2u

+ ··· + 2u + 1)(u

+ 5u

+ ··· − 9u + 1)

+ u

+ ··· − 11u + 5)(u

+ 15u

+ ··· − 3108u + 149)

, c

+ u

+ ··· − 2u + 1)(u

+ 33u

+ ··· − 141u + 19)

+ 2u

+ ··· + 2u + 1)(u

− 5u

+ ··· − 51u + 31)

+ 7u

+ ··· + 8u + 5)(u

− u

+ ··· + 65u + 49)

− u

+ ··· + 2u + 1)(u

+ 33u

+ ··· − 141u + 19)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 10y

+ ··· + 5y + 1)

· (y

− 93y

+ ··· − 17713407268y + 2813347681)

+ 15y

+ ··· − 34y + 1)(y

+ 28y

+ ··· + 261y + 1)

+ 6y

+ ··· + 18y + 1)(y

+ 3y

+ ··· + 5y + 9)

+ 3y

+ ··· + 513y + 81)

· (y

+ 112y

+ ··· + 2295020y + 257049)

− 5y

+ ··· − 427y + 289)

· (y

− 108y

+ ··· − 67250928y + 1635841)

+ 2y

+ ··· + 10y + 1)(y

+ 3y

+ ··· + 9y + 1)

+ 5y

+ ··· − 161y + 25)

· (y

+ 30y

+ ··· − 4374634y + 22201)

, c

+ 21y

+ ··· − 14y + 1)(y

+ 66y

+ ··· + 8809y + 361)

+ 4y

+ ··· + 6y + 1)(y

+ 13y

+ ··· + 21765y + 961)

+ 14y

+ ··· + 226y + 25)(y

+ 19y

+ ··· + 55653y + 2401)