12a

0523

(K12a

0523

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,9 5,12

6 10 1 11 8 3 7 2

, c

Ideals for irreducible components

of X

par

= h−6.53596 × 10

293

104

+ 7.87917 × 10

293

103

+ ··· + 2.51893 × 10

295

b + 4.10389 × 10

293

5.19190 × 10

296

104

− 1.30156 × 10

297

103

+ ··· + 7.80867 × 10

296

a + 2.98862 × 10

296

105

− 2u

104

+ ··· + 3u

+ 1i

= hb, a + 1, u + 1i

* 2 irreducible components of dim

= 0, with total 106 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−6.54 × 10

293

104

+ 7.88 × 10

293

103

+ · · · + 2.52 × 10

295

b + 4.10 ×

293

, 5.19 × 10

296

104

− 1.30 × 10

297

103

+ · · · + 7.81 × 10

296

a + 2.99 ×

296

, u

105

− 2u

104

+ · · · + 3u

+ 1i

(i) Arc colorings











−u





−0.664889u

104

+ 1.66681u

103

+ ··· + 1.49798u − 0.382731

0.0259474u

104

− 0.0312799u

103

+ ··· + 2.02082u − 0.0162922





−4.30965u

104

+ 4.08364u

103

+ ··· + 3.79930u + 8.10925

0.0507263u

104

− 0.0723374u

103

+ ··· − 0.0688675u − 0.0910713





−u

+ u





−0.675206u

104

+ 1.69171u

103

+ ··· + 0.487482u − 0.370705

−u

+ u





−0.638941u

104

+ 1.63553u

103

+ ··· + 3.51880u − 0.399023

0.0259474u

104

− 0.0312799u

103

+ ··· + 2.02082u − 0.0162922





5.02213u

104

− 5.76629u

103

+ ··· − 14.5025u − 3.74387

−0.0685443u

104

+ 0.0806585u

103

+ ··· − 0.927508u + 0.0754778





1.84791u

104

− 1.44973u

103

+ ··· − 1.12604u − 1.51565

−0.104549u

104

+ 0.0699046u

103

+ ··· + 0.0417599u + 0.0704983





5.89546u

104

− 6.94305u

103

+ ··· − 11.8346u − 4.93404

−0.278081u

104

+ 0.312953u

103

+ ··· − 0.771699u + 0.279228





1.53539u

104

− 0.555872u

103

+ ··· − 2.03889u − 2.74853

−0.0668628u

104

+ 0.0559341u

103

+ ··· + 0.951702u + 0.0225999



(ii) Obstruction class = −1

(iii) Cusp Shapes = 3.59047u

104

− 1.27532u

103

+ ··· + 8.64459u − 8.12545

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

105

+ 34u

104

+ ··· − 6u + 1

, c

105

− 2u

104

+ ··· + 2u − 1

105

+ 4u

104

+ ··· − 317390u − 19141

, c

105

− 2u

104

+ ··· + 3u

+ 1

31(31u

105

+ 196u

104

+ ··· + 3.96866 × 10

u + 4806371)

31(31u

105

− 196u

104

+ ··· − 554872u − 22063)

, c

105

+ 3u

104

+ ··· + 1098u − 81

105

+ 3u

104

+ ··· + 1440u + 279

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

105

+ 74y

104

+ ··· + 18y −1

, c

105

− 34y

104

+ ··· − 6y −1

105

− 22y

104

+ ··· + 16340336002y −366377881

, c

105

− 78y

104

+ ··· − 6y −1

961

· (961y

105

+ 107098y

104

+ ··· − 351460639183822y −23101202189641)

961(961y

105

+ 31830y

104

+ ··· + 2.58328 × 10

y −4.86776 × 10

)

, c

105

− 75y

104

+ ··· + 599886y −6561

105

+ 9y

104

+ ··· − 4365162y −77841

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.001250 + 0.088635I

a = −2.64914 + 5.35272I

b = −0.038011 − 0.343487I

4.00760 − 5.28754I 0

u = −1.001250 − 0.088635I

a = −2.64914 − 5.35272I

b = −0.038011 + 0.343487I

4.00760 + 5.28754I 0

u = 1.037460 + 0.104080I

a = 1.02767 + 3.93015I

b = −0.075087 − 0.439132I

4.74875 + 0.03581I 0

u = 1.037460 − 0.104080I

a = 1.02767 − 3.93015I

b = −0.075087 + 0.439132I

4.74875 − 0.03581I 0

u = 1.047450 + 0.159162I

a = 1.32246 + 0.67047I

b = −0.040020 − 0.427091I

3.59853 − 0.03988I 0

u = 1.047450 − 0.159162I

a = 1.32246 − 0.67047I

b = −0.040020 + 0.427091I

3.59853 + 0.03988I 0

u = 1.029210 + 0.252615I

a = 0.504533 + 1.067150I

b = 0.348579 − 0.558726I

1.77503 + 1.08366I 0

u = 1.029210 − 0.252615I

a = 0.504533 − 1.067150I

b = 0.348579 + 0.558726I

1.77503 − 1.08366I 0

u = −1.066080 + 0.143000I

a = −1.39931 + 0.46826I

b = 0.123128 − 0.376700I

2.65966 + 5.47007I 0

u = −1.066080 − 0.143000I

a = −1.39931 − 0.46826I

b = 0.123128 + 0.376700I

2.65966 − 5.47007I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.183896 + 1.081830I

a = −0.119743 + 0.157510I

b = −0.891981 − 0.657983I

−3.14658 − 6.82487I 0

u = −0.183896 − 1.081830I

a = −0.119743 − 0.157510I

b = −0.891981 + 0.657983I

−3.14658 + 6.82487I 0

u = −0.138219 + 1.094920I

a = −0.147917 + 0.115663I

b = −0.905202 − 0.860589I

2.52804 − 12.97190I 0

u = −0.138219 − 1.094920I

a = −0.147917 − 0.115663I

b = −0.905202 + 0.860589I

2.52804 + 12.97190I 0

u = 0.143059 + 1.107000I

a = 0.133437 + 0.111080I

b = 0.843222 − 0.849587I

3.64054 + 7.10836I 0

u = 0.143059 − 1.107000I

a = 0.133437 − 0.111080I

b = 0.843222 + 0.849587I

3.64054 − 7.10836I 0

u = −0.351677 + 1.075110I

a = −0.023335 + 0.193334I

b = −0.702928 − 0.316022I

−1.404440 − 0.105905I 0

u = −0.351677 − 1.075110I

a = −0.023335 − 0.193334I

b = −0.702928 + 0.316022I

−1.404440 + 0.105905I 0

u = 1.14082

a = −1.00687

b = −0.761997

3.91618 0

u = −1.080450 + 0.395669I

a = 0.151530 + 1.044050I

b = −0.877507 − 0.498572I

0.58128 − 4.51844I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.080450 − 0.395669I

a = 0.151530 − 1.044050I

b = −0.877507 + 0.498572I

0.58128 + 4.51844I 0

u = 0.216903 + 1.144560I

a = 0.071825 + 0.135759I

b = 0.677532 − 0.614095I

1.14640 + 4.18416I 0

u = 0.216903 − 1.144560I

a = 0.071825 − 0.135759I

b = 0.677532 + 0.614095I

1.14640 − 4.18416I 0

u = −0.604422 + 0.510373I

a = 0.001363 + 0.303028I

b = −0.557423 + 0.021591I

−1.294600 + 0.266261I −9.33366 + 0.I

u = −0.604422 − 0.510373I

a = 0.001363 − 0.303028I

b = −0.557423 − 0.021591I

−1.294600 − 0.266261I −9.33366 + 0.I

u = 1.21149

a = 0.364379

b = −1.43398

3.79413 0

u = 0.186143 + 0.758490I

a = −0.041179 + 0.402886I

b = 1.023650 + 0.274246I

−2.75964 + 3.82456I −7.69394 − 5.15963I

u = 0.186143 − 0.758490I

a = −0.041179 − 0.402886I

b = 1.023650 − 0.274246I

−2.75964 − 3.82456I −7.69394 + 5.15963I

u = −1.175660 + 0.322718I

a = 0.13151 + 1.62525I

b = −0.95555 − 1.17209I

1.64381 − 4.37178I 0

u = −1.175660 − 0.322718I

a = 0.13151 − 1.62525I

b = −0.95555 + 1.17209I

1.64381 + 4.37178I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.199780 + 0.219409I

a = 0.34279 + 1.87081I

b = 0.09902 − 1.60939I

5.55471 − 0.56979I 0

u = 1.199780 − 0.219409I

a = 0.34279 − 1.87081I

b = 0.09902 + 1.60939I

5.55471 + 0.56979I 0

u = 1.162080 + 0.371487I

a = −0.31585 + 1.40380I

b = 1.14678 − 0.84513I

0.238755 + 0.320365I 0

u = 1.162080 − 0.371487I

a = −0.31585 − 1.40380I

b = 1.14678 + 0.84513I

0.238755 − 0.320365I 0

u = −1.197630 + 0.242815I

a = −0.24103 + 1.86816I

b = −0.33800 − 1.59119I

5.86921 − 4.87500I 0

u = −1.197630 − 0.242815I

a = −0.24103 − 1.86816I

b = −0.33800 + 1.59119I

5.86921 + 4.87500I 0

u = −1.222500 + 0.093211I

a = −0.618978 + 1.252910I

b = 1.22271 − 1.10340I

5.71349 − 1.89041I 0

u = −1.222500 − 0.093211I

a = −0.618978 − 1.252910I

b = 1.22271 + 1.10340I

5.71349 + 1.89041I 0

u = 1.227930 + 0.136503I

a = 0.65931 + 1.63245I

b = −0.89616 − 1.54631I

2.52130 + 3.67820I 0

u = 1.227930 − 0.136503I

a = 0.65931 − 1.63245I

b = −0.89616 + 1.54631I

2.52130 − 3.67820I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.202250 + 0.346653I

a = −0.34406 + 1.69024I

b = 1.26890 − 1.21120I

−2.45776 + 6.16809I 0

u = 1.202250 − 0.346653I

a = −0.34406 − 1.69024I

b = 1.26890 + 1.21120I

−2.45776 − 6.16809I 0

u = −1.255710 + 0.057159I

a = −1.016010 + 0.818544I

b = 1.87080 − 0.87723I

9.02776 − 1.33183I 0

u = −1.255710 − 0.057159I

a = −1.016010 − 0.818544I

b = 1.87080 + 0.87723I

9.02776 + 1.33183I 0

u = 1.258390 + 0.046924I

a = 1.058200 + 0.680510I

b = −1.96530 − 0.73898I

8.40796 − 4.25540I 0

u = 1.258390 − 0.046924I

a = 1.058200 − 0.680510I

b = −1.96530 + 0.73898I

8.40796 + 4.25540I 0

u = −1.217260 + 0.325928I

a = 0.27210 + 1.85122I

b = −1.21658 − 1.46883I

3.61544 − 6.31212I 0

u = −1.217260 − 0.325928I

a = 0.27210 − 1.85122I

b = −1.21658 + 1.46883I

3.61544 + 6.31212I 0

u = −1.255260 + 0.117370I

a = −0.92722 + 1.52083I

b = 1.35471 − 1.65467I

8.36985 − 3.15222I 0

u = −1.255260 − 0.117370I

a = −0.92722 − 1.52083I

b = 1.35471 + 1.65467I

8.36985 + 3.15222I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.257520 + 0.125339I

a = 0.92754 + 1.60282I

b = −1.28893 − 1.76611I

7.54940 + 8.78410I 0

u = 1.257520 − 0.125339I

a = 0.92754 − 1.60282I

b = −1.28893 + 1.76611I

7.54940 − 8.78410I 0

u = 1.222260 + 0.332374I

a = −0.33002 + 1.86212I

b = 1.30750 − 1.46504I

2.59147 + 11.95360I 0

u = 1.222260 − 0.332374I

a = −0.33002 − 1.86212I

b = 1.30750 + 1.46504I

2.59147 − 11.95360I 0

u = 0.110022 + 0.709216I

a = −0.132806 + 0.485406I

b = 1.023330 + 0.544364I

−5.80400 − 2.26364I −10.97921 + 2.02009I

u = 0.110022 − 0.709216I

a = −0.132806 − 0.485406I

b = 1.023330 − 0.544364I

−5.80400 + 2.26364I −10.97921 − 2.02009I

u = 0.029234 + 1.290430I

a = 0.0082975 + 0.0595641I

b = 0.073881 − 0.793429I

7.30962 + 3.06464I 0

u = 0.029234 − 1.290430I

a = 0.0082975 − 0.0595641I

b = 0.073881 + 0.793429I

7.30962 − 3.06464I 0

u = 0.058274 + 0.684355I

a = −0.225911 + 0.552452I

b = 0.988094 + 0.748338I

−0.96466 − 8.18446I −5.29812 + 6.41381I

u = 0.058274 − 0.684355I

a = −0.225911 − 0.552452I

b = 0.988094 − 0.748338I

−0.96466 + 8.18446I −5.29812 − 6.41381I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.198391 + 0.656872I

a = 0.128951 + 0.351468I

b = −0.807130 + 0.376578I

−1.37508 + 0.69491I −5.30659 − 1.43743I

u = −0.198391 − 0.656872I

a = 0.128951 − 0.351468I

b = −0.807130 − 0.376578I

−1.37508 − 0.69491I −5.30659 + 1.43743I

u = −0.066609 + 0.664501I

a = 0.251170 + 0.510908I

b = −0.910547 + 0.727872I

0.10737 + 2.61763I −3.53159 − 1.71174I

u = −0.066609 − 0.664501I

a = 0.251170 − 0.510908I

b = −0.910547 − 0.727872I

0.10737 − 2.61763I −3.53159 + 1.71174I

u = 1.40362 + 0.48950I

a = 0.00883 − 1.60449I

b = −1.16869 + 1.20887I

7.3598 + 18.5471I 0

u = 1.40362 − 0.48950I

a = 0.00883 + 1.60449I

b = −1.16869 − 1.20887I

7.3598 − 18.5471I 0

u = −1.40671 + 0.49098I

a = 0.01328 − 1.57139I

b = 1.12578 + 1.21228I

8.4984 − 12.7188I 0

u = −1.40671 − 0.49098I

a = 0.01328 + 1.57139I

b = 1.12578 − 1.21228I

8.4984 + 12.7188I 0

u = 1.41075 + 0.48080I

a = 0.08806 − 1.51090I

b = −1.12260 + 1.08649I

1.82215 + 12.33280I 0

u = 1.41075 − 0.48080I

a = 0.08806 + 1.51090I

b = −1.12260 − 1.08649I

1.82215 − 12.33280I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.42223 + 0.48655I

a = −0.018088 − 1.406970I

b = 0.99133 + 1.09509I

6.23656 − 9.84835I 0

u = −1.42223 − 0.48655I

a = −0.018088 + 1.406970I

b = 0.99133 − 1.09509I

6.23656 + 9.84835I 0

u = 1.43045 + 0.47266I

a = 0.129535 − 1.323860I

b = −0.977552 + 0.952506I

3.94876 + 5.59214I 0

u = 1.43045 − 0.47266I

a = 0.129535 + 1.323860I

b = −0.977552 − 0.952506I

3.94876 − 5.59214I 0

u = −1.43719 + 0.51844I

a = 0.246826 − 1.221380I

b = 0.669947 + 1.223210I

12.1930 − 9.2857I 0

u = −1.43719 − 0.51844I

a = 0.246826 + 1.221380I

b = 0.669947 − 1.223210I

12.1930 + 9.2857I 0

u = 1.44374 + 0.52482I

a = −0.270248 − 1.146870I

b = −0.588875 + 1.196410I

12.12610 + 3.28595I 0

u = 1.44374 − 0.52482I

a = −0.270248 + 1.146870I

b = −0.588875 − 1.196410I

12.12610 − 3.28595I 0

u = 0.045808 + 0.458306I

a = 0.818270 − 0.034288I

b = −0.155246 + 0.850670I

2.32263 + 2.17537I −1.25483 − 4.43451I

u = 0.045808 − 0.458306I

a = 0.818270 + 0.034288I

b = −0.155246 − 0.850670I

2.32263 − 2.17537I −1.25483 + 4.43451I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.095860 + 0.444326I

a = −1.149790 − 0.090487I

b = 0.012329 + 0.925237I

1.86071 + 3.04955I −2.34350 − 1.80734I

u = −0.095860 − 0.444326I

a = −1.149790 + 0.090487I

b = 0.012329 − 0.925237I

1.86071 − 3.04955I −2.34350 + 1.80734I

u = −0.256720 + 0.364302I

a = −2.57277 − 0.09048I

b = −0.566482 + 0.850730I

3.11999 − 7.09682I −1.22727 + 6.68806I

u = −0.256720 − 0.364302I

a = −2.57277 + 0.09048I

b = −0.566482 − 0.850730I

3.11999 + 7.09682I −1.22727 − 6.68806I

u = 0.259161 + 0.341076I

a = 2.70653 − 0.22007I

b = 0.575046 + 0.774355I

3.95977 + 1.57224I 0.72765 − 1.22976I

u = 0.259161 − 0.341076I

a = 2.70653 + 0.22007I

b = 0.575046 − 0.774355I

3.95977 − 1.57224I 0.72765 + 1.22976I

u = −0.185439 + 0.373872I

a = −2.03610 − 0.36458I

b = −0.333036 + 0.850412I

−1.55602 − 1.86353I −7.04309 + 3.50475I

u = −0.185439 − 0.373872I

a = −2.03610 + 0.36458I

b = −0.333036 − 0.850412I

−1.55602 + 1.86353I −7.04309 − 3.50475I

u = −0.384548 + 0.144143I

a = −4.17541 − 0.15190I

b = −0.771056 + 0.219016I

3.79007 + 4.86557I −3.91765 − 5.78099I

u = −0.384548 − 0.144143I

a = −4.17541 + 0.15190I

b = −0.771056 − 0.219016I

3.79007 − 4.86557I −3.91765 + 5.78099I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.54081 + 0.44876I

a = −0.198025 − 0.762752I

b = 0.581214 + 0.586799I

3.16248 − 7.87070I 0

u = −1.54081 − 0.44876I

a = −0.198025 + 0.762752I

b = 0.581214 − 0.586799I

3.16248 + 7.87070I 0

u = 0.352843 + 0.170127I

a = 4.04123 − 0.28066I

b = 0.730822 + 0.288597I

4.48313 + 0.58245I −1.56702 + 0.71193I

u = 0.352843 − 0.170127I

a = 4.04123 + 0.28066I

b = 0.730822 − 0.288597I

4.48313 − 0.58245I −1.56702 − 0.71193I

u = −1.45640 + 0.72941I

a = 0.412409 − 0.298435I

b = −0.225627 + 0.675899I

6.15662 + 6.42755I 0

u = −1.45640 − 0.72941I

a = 0.412409 + 0.298435I

b = −0.225627 − 0.675899I

6.15662 − 6.42755I 0

u = 1.55729 + 0.52982I

a = −0.030593 − 0.671169I

b = −0.367899 + 0.684184I

5.35803 + 3.08361I 0

u = 1.55729 − 0.52982I

a = −0.030593 + 0.671169I

b = −0.367899 − 0.684184I

5.35803 − 3.08361I 0

u = 1.49683 + 0.69386I

a = −0.355902 − 0.391949I

b = 0.100044 + 0.709134I

7.37741 − 0.45511I 0

u = 1.49683 − 0.69386I

a = −0.355902 + 0.391949I

b = 0.100044 − 0.709134I

7.37741 + 0.45511I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.347632

a = −4.59360

b = −0.664125

−0.447801 −12.5780

u = 0.170027 + 0.238840I

a = 2.84527 − 1.60576I

b = 0.343400 + 0.495146I

1.76251 + 0.66899I 4.46975 + 0.53128I

u = 0.170027 − 0.238840I

a = 2.84527 + 1.60576I

b = 0.343400 − 0.495146I

1.76251 − 0.66899I 4.46975 − 0.53128I

u = −1.75988 + 0.61452I

a = −0.006746 − 0.326907I

b = 0.171742 + 0.388574I

0.283122 − 0.464056I 0

u = −1.75988 − 0.61452I

a = −0.006746 + 0.326907I

b = 0.171742 − 0.388574I

0.283122 + 0.464056I 0

II. I

= hb, a + 1, u + 1i

(i) Arc colorings







−1





−1





−1





−1





−1





−1





−1





−1





−1





−1





−1



(ii) Obstruction class = −1

(iii) Cusp Shapes = −6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u + 1

u − 1

, c

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y −1

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.00000

a = −1.00000

b = 0

−1.64493 −6.00000

III. u-Polynomials

Crossings u-Polynomials at each crossing

, c

(u + 1)(u

105

+ 34u

104

+ ··· − 6u + 1)

, c

(u + 1)(u

105

− 2u

104

+ ··· + 2u − 1)

(u + 1)(u

105

+ 4u

104

+ ··· − 317390u − 19141)

, c

(u + 1)(u

105

− 2u

104

+ ··· + 3u

+ 1)

31(u + 1)(31u

105

+ 196u

104

+ ··· + 3.96866 × 10

u + 4806371)

31(u − 1)(31u

105

− 196u

104

+ ··· − 554872u − 22063)

, c

u(u

105

+ 3u

104

+ ··· + 1098u − 81)

u(u

105

+ 3u

104

+ ··· + 1440u + 279)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

(y −1)(y

105

+ 74y

104

+ ··· + 18y −1)

, c

(y −1)(y

105

− 34y

104

+ ··· − 6y −1)

(y −1)(y

105

− 22y

104

+ ··· + 1.63403 × 10

y −3.66378 × 10

)

, c

(y −1)(y

105

− 78y

104

+ ··· − 6y −1)

961(y −1)

· (961y

105

+ 107098y

104

+ ··· − 351460639183822y −23101202189641)

961(y −1)

· (961y

105

+ 31830y

104

+ ··· + 25832765582y −486775969)

, c

y(y

105

− 75y

104

+ ··· + 599886y −6561)

y(y

105

+ 9y

104

+ ··· − 4365162y −77841)