12n

0797

(K12n

0797

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

8,11

2,7

3 1 6 5 10 4 9

, c

Ideals for irreducible components

of X

par

= h2.07960 × 10

+ 2.94820 × 10

+ ··· + 1.60845 × 10

b − 8.75300 × 10

3.49565 × 10

+ 1.25650 × 10

+ ··· + 2.58961 × 10

a + 8.81973 × 10

+ 2u

+ ··· + 547u + 161i

= h2u

− 88u

+ ··· + 46b − 59, −91u

+ 215u

+ ··· + 46a + 66, u

− u

+ ··· + 4u + 1i

* 2 irreducible components of dim

= 0, with total 81 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

h2.08×10

+2.95×10

+· · ·+1.61×10

b−8.75×10

, 3.50×10

1.26 × 10

+ · · · + 2.59 × 10

a + 8.82 × 10

, u

+ 2u

+ · · · + 547u + 161i

(i) Arc colorings















−0.0134987u

− 0.0485208u

+ ··· − 12.9886u − 3.40581

−0.0129292u

− 0.0183294u

+ ··· + 18.5763u + 5.44188





+ u





−0.0187035u

− 0.0547457u

+ ··· − 3.27141u − 0.392712

−0.0151382u

− 0.0181689u

+ ··· + 26.8425u + 7.78127





+ 1

+ 2u





−0.0211190u

− 0.0418297u

+ ··· − 8.19248u + 0.487545

0.0160121u

+ 0.0367680u

+ ··· + 6.73323u − 0.603776





−0.00510696u

− 0.00506179u

+ ··· − 1.45925u − 0.116231

0.0160121u

+ 0.0367680u

+ ··· + 6.73323u − 0.603776





0.0168284u

+ 0.0417284u

+ ··· + 17.8209u + 3.35274

0.0107121u

+ 0.00850273u

+ ··· − 25.3078u − 6.73136





0.00524703u

+ 0.0251477u

+ ··· + 38.4021u + 9.27761

0.0246750u

+ 0.0506644u

+ ··· − 1.69128u − 1.40430





0.0213925u

+ 0.0472947u

+ ··· + 8.93888u + 0.875826

0.00408564u

− 0.00772075u

+ ··· − 24.1554u − 5.78092



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.0784770u

− 0.193082u

+ ··· − 68.0047u − 10.6801

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 6u

+ ··· + 138u − 7

, c

− u

+ ··· − 6215u + 4261

− 22u

+ ··· − 425241u + 68743

, c

+ 3u

+ ··· + 40u + 8

+ u

+ ··· + 518u + 691

, c

+ 2u

+ ··· + 547u + 161

+ 6u

+ ··· + 3961u + 547

− 45u

+ ··· + 42944u + 11864

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 10y

+ ··· + 9314y −49

, c

+ 81y

+ ··· − 714727097y −18156121

− 44y

+ ··· + 161699281125y −4725600049

, c

+ 51y

+ ··· − 16448y −64

+ 83y

+ ··· − 17632722y −477481

, c

+ 68y

+ ··· − 615593y −25921

+ 24y

+ ··· − 5301057y −299209

− 90y

+ ··· + 3812472192y −140754496

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.490040 + 0.753457I

a = −0.887738 − 0.559278I

b = 1.50685 − 0.03038I

6.13669 − 4.64981I −5.28628 + 6.18804I

u = 0.490040 − 0.753457I

a = −0.887738 + 0.559278I

b = 1.50685 + 0.03038I

6.13669 + 4.64981I −5.28628 − 6.18804I

u = 0.570071 + 0.997038I

a = 0.88532 + 1.33081I

b = −0.537901 + 0.521935I

−1.18456 − 2.16066I 0

u = 0.570071 − 0.997038I

a = 0.88532 − 1.33081I

b = −0.537901 − 0.521935I

−1.18456 + 2.16066I 0

u = 0.251956 + 0.785395I

a = −1.08299 − 1.33546I

b = 1.61042 − 0.04562I

9.54903 − 0.14815I 1.97076 + 0.45693I

u = 0.251956 − 0.785395I

a = −1.08299 + 1.33546I

b = 1.61042 + 0.04562I

9.54903 + 0.14815I 1.97076 − 0.45693I

u = −0.116882 + 1.178060I

a = 0.104386 − 0.227431I

b = −0.646640 − 0.042880I

2.57075 + 2.07006I 0

u = −0.116882 − 1.178060I

a = 0.104386 + 0.227431I

b = −0.646640 + 0.042880I

2.57075 − 2.07006I 0

u = −0.636334 + 1.002860I

a = 0.811613 − 0.985736I

b = −0.254278 − 1.303390I

−0.34669 + 2.38010I 0

u = −0.636334 − 1.002860I

a = 0.811613 + 0.985736I

b = −0.254278 + 1.303390I

−0.34669 − 2.38010I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.516300 + 0.607161I

a = 0.551523 + 0.748786I

b = −1.57349 − 0.23422I

5.55349 + 1.15098I −7.02981 + 2.01750I

u = 0.516300 − 0.607161I

a = 0.551523 − 0.748786I

b = −1.57349 + 0.23422I

5.55349 − 1.15098I −7.02981 − 2.01750I

u = 0.635640 + 0.408514I

a = −0.049474 − 0.375979I

b = 0.244897 + 0.404452I

3.21037 − 3.81410I −3.00876 + 4.44084I

u = 0.635640 − 0.408514I

a = −0.049474 + 0.375979I

b = 0.244897 − 0.404452I

3.21037 + 3.81410I −3.00876 − 4.44084I

u = 0.578207 + 0.479856I

a = 0.433436 + 0.026732I

b = −0.483722 + 0.114833I

3.53350 − 0.19360I −3.73389 + 2.78818I

u = 0.578207 − 0.479856I

a = 0.433436 − 0.026732I

b = −0.483722 − 0.114833I

3.53350 + 0.19360I −3.73389 − 2.78818I

u = 0.084715 + 0.743739I

a = −0.86276 − 2.38888I

b = 0.302921 + 0.216438I

1.83611 + 5.00955I −1.41995 − 4.51640I

u = 0.084715 − 0.743739I

a = −0.86276 + 2.38888I

b = 0.302921 − 0.216438I

1.83611 − 5.00955I −1.41995 + 4.51640I

u = −0.206657 + 0.671508I

a = −0.30812 + 1.43958I

b = −0.371827 + 1.206250I

1.53161 − 4.54582I −1.70666 + 0.80391I

u = −0.206657 − 0.671508I

a = −0.30812 − 1.43958I

b = −0.371827 − 1.206250I

1.53161 + 4.54582I −1.70666 − 0.80391I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.223556 + 0.606477I

a = 0.602584 + 1.250130I

b = −1.89077 + 0.29080I

8.94290 − 1.49383I 1.30346 + 4.21129I

u = 0.223556 − 0.606477I

a = 0.602584 − 1.250130I

b = −1.89077 − 0.29080I

8.94290 + 1.49383I 1.30346 − 4.21129I

u = −1.116550 + 0.829939I

a = −0.054400 + 0.756088I

b = 2.34708 + 0.06527I

12.4197 + 8.7555I 0

u = −1.116550 − 0.829939I

a = −0.054400 − 0.756088I

b = 2.34708 − 0.06527I

12.4197 − 8.7555I 0

u = −0.129598 + 1.407450I

a = −0.933650 − 0.404509I

b = 0.363613 + 1.022520I

4.96026 + 2.94833I 0

u = −0.129598 − 1.407450I

a = −0.933650 + 0.404509I

b = 0.363613 − 1.022520I

4.96026 − 2.94833I 0

u = −1.29784 + 0.63122I

a = −0.058295 − 0.824045I

b = −2.36846 − 0.46156I

11.71150 − 0.95890I 0

u = −1.29784 − 0.63122I

a = −0.058295 + 0.824045I

b = −2.36846 + 0.46156I

11.71150 + 0.95890I 0

u = −0.18355 + 1.46859I

a = 0.384347 − 0.500239I

b = −0.278834 − 0.427014I

4.72513 + 1.63928I 0

u = −0.18355 − 1.46859I

a = 0.384347 + 0.500239I

b = −0.278834 + 0.427014I

4.72513 − 1.63928I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.22442 + 1.46665I

a = −0.758599 − 0.218438I

b = 0.711269 + 0.025399I

9.77580 − 3.16441I 0

u = 0.22442 − 1.46665I

a = −0.758599 + 0.218438I

b = 0.711269 − 0.025399I

9.77580 + 3.16441I 0

u = 0.22595 + 1.46861I

a = 0.078711 + 0.724552I

b = −0.246015 − 0.635654I

9.28337 − 6.93920I 0

u = 0.22595 − 1.46861I

a = 0.078711 − 0.724552I

b = −0.246015 + 0.635654I

9.28337 + 6.93920I 0

u = −0.295289 + 0.365913I

a = 0.546011 − 1.002610I

b = −0.236263 − 0.861145I

−0.63078 + 1.39813I −4.91291 − 6.55485I

u = −0.295289 − 0.365913I

a = 0.546011 + 1.002610I

b = −0.236263 + 0.861145I

−0.63078 − 1.39813I −4.91291 + 6.55485I

u = −0.426697

a = 1.04155

b = 0.354185

−0.877261 −10.1120

u = 0.06992 + 1.64735I

a = −2.21340 + 0.12521I

b = 2.70602 − 0.87673I

17.0119 − 2.6386I 0

u = 0.06992 − 1.64735I

a = −2.21340 − 0.12521I

b = 2.70602 + 0.87673I

17.0119 + 2.6386I 0

u = 0.14782 + 1.66795I

a = −1.88593 − 0.44797I

b = 2.33419 − 0.02631I

13.66400 − 1.40536I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.14782 − 1.66795I

a = −1.88593 + 0.44797I

b = 2.33419 + 0.02631I

13.66400 + 1.40536I 0

u = −0.194738 + 0.240755I

a = 1.82364 + 2.49499I

b = 0.421348 − 0.103727I

−1.054960 − 0.149529I −3.90095 − 3.89450I

u = −0.194738 − 0.240755I

a = 1.82364 − 2.49499I

b = 0.421348 + 0.103727I

−1.054960 + 0.149529I −3.90095 + 3.89450I

u = 0.15421 + 1.68561I

a = 1.84022 + 0.35608I

b = −2.13772 + 0.11444I

14.7179 − 7.2096I 0

u = 0.15421 − 1.68561I

a = 1.84022 − 0.35608I

b = −2.13772 − 0.11444I

14.7179 + 7.2096I 0

u = 0.08151 + 1.71479I

a = 1.71136 + 0.13502I

b = −2.00460 + 0.60101I

18.6220 − 1.5785I 0

u = 0.08151 − 1.71479I

a = 1.71136 − 0.13502I

b = −2.00460 − 0.60101I

18.6220 + 1.5785I 0

u = −0.04620 + 1.72945I

a = −0.847700 + 0.629686I

b = 1.26083 − 1.76289I

10.49490 − 3.28765I 0

u = −0.04620 − 1.72945I

a = −0.847700 − 0.629686I

b = 1.26083 + 1.76289I

10.49490 + 3.28765I 0

u = 0.01411 + 1.75354I

a = 0.705957 − 0.124688I

b = −0.83820 + 1.26974I

11.23260 + 4.25408I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.01411 − 1.75354I

a = 0.705957 + 0.124688I

b = −0.83820 − 1.26974I

11.23260 − 4.25408I 0

u = −0.36581 + 1.72020I

a = 1.56485 − 0.63201I

b = −2.36197 − 0.69629I

−18.7497 + 14.4065I 0

u = −0.36581 − 1.72020I

a = 1.56485 + 0.63201I

b = −2.36197 + 0.69629I

−18.7497 − 14.4065I 0

u = −0.46563 + 1.76753I

a = −1.33286 + 0.60148I

b = 2.24415 + 0.96108I

19.3972 + 5.7935I 0

u = −0.46563 − 1.76753I

a = −1.33286 − 0.60148I

b = 2.24415 − 0.96108I

19.3972 − 5.7935I 0

II. I

= h2u

− 88u

+ · · · + 46b − 59, −91u

+ 215u

+ · · · + 46a +

66, u

− u

+ · · · + 4u + 1i

(i) Arc colorings















1.97826u

− 4.67391u

+ ··· + 2.36957u − 1.43478

−0.0434783u

+ 1.91304u

+ ··· + 6.47826u + 1.28261





+ u





3.63043u

− 8.30435u

+ ··· − 1.86957u − 2.76087

−1.13043u

+ 4.67391u

+ ··· + 8.50000u + 1.93478





+ 1

+ 2u





−3.23913u

+ 2.80435u

+ ··· − 13.1522u − 2.23913

0.652174u

+ 0.434783u

+ ··· + 2.69565u + 0.586957





−2.58696u

+ 3.23913u

+ ··· − 10.4565u − 1.65217

0.652174u

+ 0.434783u

+ ··· + 2.69565u + 0.586957





0.543478u

− 2.43478u

+ ··· − 4.95652u − 1.58696

1.52174u

− 1.21739u

+ ··· + 2.52174u − 0.0434783





−0.717391u

+ 0.760870u

+ ··· + 0.195652u + 0.652174

−1.04348u

+ 4.84783u

+ ··· + 7.54348u + 2.36957





− 2u

+ ··· − 4u − 2

1.54348u

− 1.32609u

+ ··· + 1.93478u − 0.0652174



(ii) Obstruction class = 1

(iii) Cusp Shapes =

−

266

+ ··· +

u −

274

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· − 3u + 1

+ 7u

+ ··· − 6u

+ 1

+ u

+ ··· + 7u

+ 1

+ 2u

+ ··· + 8u + 8

+ 18u

+ ··· + 155u + 19

+ 7u

+ ··· − 6u

+ 1

+ u

+ ··· − 4u + 1

− 2u

+ ··· − 8u + 8

+ u

+ ··· − 6u + 1

− 3u

+ ··· − 16u + 8

, c

− u

+ ··· + 4u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− y

+ ··· − 3y + 1

, c

+ 14y

+ ··· − 12y + 1

− 7y

+ ··· + 14y + 1

, c

+ 20y

+ ··· + 768y + 64

+ 36y

+ ··· − 3239y + 361

, c

+ 29y

+ ··· + 8y + 1

+ y

+ ··· + 72y + 1

− 17y

+ ··· + 448y + 64

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.531767 + 0.924726I

a = 0.95660 − 1.36911I

b = −0.314180 − 0.738123I

−1.60523 + 2.14875I −18.0536 − 1.1189I

u = −0.531767 − 0.924726I

a = 0.95660 + 1.36911I

b = −0.314180 + 0.738123I

−1.60523 − 2.14875I −18.0536 + 1.1189I

u = −0.155520 + 1.184120I

a = −0.297405 − 0.783721I

b = 0.964857 + 0.167882I

7.99337 + 3.58193I 0.53526 − 3.16458I

u = −0.155520 − 1.184120I

a = −0.297405 + 0.783721I

b = 0.964857 − 0.167882I

7.99337 − 3.58193I 0.53526 + 3.16458I

u = −0.278958 + 0.724589I

a = 0.996507 + 0.135576I

b = −1.332660 + 0.342920I

6.25488 − 1.92335I −0.90199 + 3.47352I

u = −0.278958 − 0.724589I

a = 0.996507 − 0.135576I

b = −1.332660 − 0.342920I

6.25488 + 1.92335I −0.90199 − 3.47352I

u = 0.930098 + 0.802820I

a = 0.474244 + 0.914716I

b = −0.060489 + 1.338220I

0.53288 − 3.32357I −2.37998 + 5.27576I

u = 0.930098 − 0.802820I

a = 0.474244 − 0.914716I

b = −0.060489 − 1.338220I

0.53288 + 3.32357I −2.37998 − 5.27576I

u = −0.028031 + 1.276740I

a = −1.00372 − 1.53912I

b = 0.172185 + 0.709515I

3.91194 + 5.18636I −1.06606 − 5.83088I

u = −0.028031 − 1.276740I

a = −1.00372 + 1.53912I

b = 0.172185 − 0.709515I

3.91194 − 5.18636I −1.06606 + 5.83088I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.499919 + 0.469085I

a = 0.20979 + 1.55488I

b = −1.84433 + 0.13564I

8.18136 + 0.02481I −4.35136 − 0.00061I

u = 0.499919 − 0.469085I

a = 0.20979 − 1.55488I

b = −1.84433 − 0.13564I

8.18136 − 0.02481I −4.35136 + 0.00061I

u = −0.075484 + 1.330840I

a = −0.140603 + 1.168060I

b = 0.453510 − 0.455888I

2.64528 + 0.49890I −3.27837 + 0.91499I

u = −0.075484 − 1.330840I

a = −0.140603 − 1.168060I

b = 0.453510 + 0.455888I

2.64528 − 0.49890I −3.27837 − 0.91499I

u = 0.251257 + 1.313020I

a = −0.585820 − 0.404742I

b = 1.356040 + 0.081601I

11.21190 − 2.85234I 3.32067 + 2.75617I

u = 0.251257 − 1.313020I

a = −0.585820 + 0.404742I

b = 1.356040 − 0.081601I

11.21190 + 2.85234I 3.32067 − 2.75617I

u = −0.15611 + 1.42827I

a = −0.770422 + 0.144555I

b = 0.483139 + 0.795468I

4.00781 + 2.36685I −6.55320 − 2.61997I

u = −0.15611 − 1.42827I

a = −0.770422 − 0.144555I

b = 0.483139 − 0.795468I

4.00781 − 2.36685I −6.55320 + 2.61997I

u = 0.017031 + 0.451525I

a = −1.36632 + 2.82567I

b = −0.178221 + 0.877402I

0.91017 − 5.01353I −11.92997 + 6.89384I

u = 0.017031 − 0.451525I

a = −1.36632 − 2.82567I

b = −0.178221 − 0.877402I

0.91017 + 5.01353I −11.92997 − 6.89384I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.20761 + 1.53663I

a = −0.015459 + 0.437458I

b = −0.167651 − 1.040590I

8.40386 − 6.76860I −5.77206 + 3.99737I

u = 0.20761 − 1.53663I

a = −0.015459 − 0.437458I

b = −0.167651 + 1.040590I

8.40386 + 6.76860I −5.77206 − 3.99737I

u = 0.09600 + 1.68071I

a = −1.97843 − 0.05589I

b = 2.47796 − 0.70763I

16.3295 − 2.2416I −3.78517 + 0.I

u = 0.09600 − 1.68071I

a = −1.97843 + 0.05589I

b = 2.47796 + 0.70763I

16.3295 + 2.2416I −3.78517 + 0.I

u = −0.276043 + 0.143761I

a = −1.97897 − 2.35981I

b = −0.510160 − 0.524360I

−1.33535 + 0.64782I −10.78419 − 5.87862I

u = −0.276043 − 0.143761I

a = −1.97897 + 2.35981I

b = −0.510160 + 0.524360I

−1.33535 − 0.64782I −10.78419 + 5.87862I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 9u

+ ··· − 3u + 1)(u

− 6u

+ ··· + 138u − 7)

+ 7u

+ ··· − 6u

+ 1)(u

− u

+ ··· − 6215u + 4261)

+ u

+ ··· + 7u

+ 1)(u

− 22u

+ ··· − 425241u + 68743)

+ 2u

+ ··· + 8u + 8)(u

+ 3u

+ ··· + 40u + 8)

+ 18u

+ ··· + 155u + 19)(u

+ u

+ ··· + 518u + 691)

+ 7u

+ ··· − 6u

+ 1)(u

− u

+ ··· − 6215u + 4261)

+ u

+ ··· − 4u + 1)(u

+ 2u

+ ··· + 547u + 161)

− 2u

+ ··· − 8u + 8)(u

+ 3u

+ ··· + 40u + 8)

+ u

+ ··· − 6u + 1)(u

+ 6u

+ ··· + 3961u + 547)

− 3u

+ ··· − 16u + 8)(u

− 45u

+ ··· + 42944u + 11864)

, c

− u

+ ··· + 4u + 1)(u

+ 2u

+ ··· + 547u + 161)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− y

+ ··· − 3y + 1)(y

+ 10y

+ ··· + 9314y −49)

, c

+ 14y

+ ··· − 12y + 1)

· (y

+ 81y

+ ··· − 714727097y −18156121)

− 7y

+ ··· + 14y + 1)

· (y

− 44y

+ ··· + 161699281125y −4725600049)

, c

+ 20y

+ ··· + 768y + 64)(y

+ 51y

+ ··· − 16448y −64)

+ 36y

+ ··· − 3239y + 361)

· (y

+ 83y

+ ··· − 17632722y −477481)

, c

+ 29y

+ ··· + 8y + 1)(y

+ 68y

+ ··· − 615593y −25921)

+ y

+ ··· + 72y + 1)(y

+ 24y

+ ··· − 5301057y −299209)

− 17y

+ ··· + 448y + 64)

· (y

− 90y

+ ··· + 3812472192y −140754496)