12a

0526

(K12a

0526

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,7

3 1 6 8

4,11

9 5 10 12

, c

Ideals for irreducible components

of X

par

= h1.43587 × 10

107

+ 2.94893 × 10

106

+ ··· + 6.98068 × 10

b + 3.66969 × 10

3.25085 × 10

107

+ 4.64698 × 10

106

+ ··· + 6.98068 × 10

a + 7.03973 × 10

, u

108

+ 2u

107

+ ··· + 3u + 1i

= hb + 1, −u

+ a − u, u

+ u

− 1i

* 2 irreducible components of dim

= 0, with total 111 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

= h1.44 × 10

107

+ 2.95 × 10

106

+ · · · + 6.98 × 10

b + 3.67 ×

, 3.25 × 10

107

+ 4.65 × 10

106

+ · · · + 6.98 × 10

a + 7.04 ×

, u

108

+ 2u

107

+ · · · + 3u + 1i

(i) Arc colorings















−u

+ 1

−u









−u

+ u





−u

+ u

− u

+ 1

−u

+ 2u

− 2u

+ 2u





−4.65692u

107

− 6.65692u

106

+ ··· − 6.39711u − 1.00846

−2.05692u

107

− 4.22441u

106

+ ··· − 16.7623u − 5.25692





0.622547u

107

+ 1.02255u

106

+ ··· − 3.55169u + 0.111274

0.222547u

107

− 0.380109u

106

+ ··· + 1.75637u + 0.622547





−u

+ 2u

− 2u

+ 2u

−u

+ u

− u

+ u





−5.78807u

107

− 9.58807u

106

+ ··· + 0.732755u − 0.554037

−3.18807u

107

− 5.54842u

106

+ ··· − 14.3702u − 4.78807





−5.68213u

107

− 9.28213u

106

+ ··· − 0.971272u − 0.00106654

−3.28213u

107

− 5.84102u

106

+ ··· − 14.0053u − 4.68213



(ii) Obstruction class = −1

(iii) Cusp Shapes = −3.18066u

107

− 12.3213u

106

+ ··· − 15.7876u − 9.30066

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

108

+ 38u

107

+ ··· + 7u + 1

, c

108

− 2u

107

+ ··· − 3u + 1

, c

108

+ 2u

107

+ ··· + 9913u + 8017

108

− 2u

107

+ ··· + u − 1

108

− 17u

107

+ ··· − 20u + 8

, c

108

+ 4u

107

+ ··· − 28u − 1

108

+ 3u

107

+ ··· + 1284u + 109

108

+ u

107

+ ··· + 54u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

108

+ 66y

107

+ ··· + 49y + 1

, c

108

− 38y

107

+ ··· − 7y + 1

, c

108

− 78y

107

+ ··· − 1545833123y + 64272289

108

− 14y

107

+ ··· − 7y + 1

108

− 21y

107

+ ··· − 2256y + 64

, c

108

− 64y

107

+ ··· − 780y + 1

108

+ 105y

107

+ ··· + 224182y + 11881

108

+ 97y

107

+ ··· − 3282y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.597771 + 0.813650I

a = 2.47839 + 0.85182I

b = 2.57699 − 1.74065I

0.91550 − 12.81660I 0

u = −0.597771 − 0.813650I

a = 2.47839 − 0.85182I

b = 2.57699 + 1.74065I

0.91550 + 12.81660I 0

u = −0.586515 + 0.785999I

a = −2.58131 − 1.17591I

b = −2.78106 + 1.56187I

−2.76135 − 6.51854I 0

u = −0.586515 − 0.785999I

a = −2.58131 + 1.17591I

b = −2.78106 − 1.56187I

−2.76135 + 6.51854I 0

u = 0.614242 + 0.813810I

a = 1.370720 − 0.107661I

b = 0.98107 + 1.24217I

−0.36628 + 4.95266I 0

u = 0.614242 − 0.813810I

a = 1.370720 + 0.107661I

b = 0.98107 − 1.24217I

−0.36628 − 4.95266I 0

u = 0.993276 + 0.256239I

a = 0.048345 + 0.497832I

b = −0.417849 + 0.962950I

−0.21980 + 2.28779I 0

u = 0.993276 − 0.256239I

a = 0.048345 − 0.497832I

b = −0.417849 − 0.962950I

−0.21980 − 2.28779I 0

u = −0.607429 + 0.758889I

a = 1.10687 − 1.94850I

b = −0.65726 − 1.68774I

2.45525 − 4.40691I 0

u = −0.607429 − 0.758889I

a = 1.10687 + 1.94850I

b = −0.65726 + 1.68774I

2.45525 + 4.40691I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.967017 + 0.354553I

a = 0.685909 + 0.472926I

b = 1.49049 + 0.16949I

0.30361 + 8.27780I 0

u = −0.967017 − 0.354553I

a = 0.685909 − 0.472926I

b = 1.49049 − 0.16949I

0.30361 − 8.27780I 0

u = 0.557597 + 0.778279I

a = −1.43951 + 0.23035I

b = −1.35512 − 1.16412I

−2.06069 + 1.57945I 0

u = 0.557597 − 0.778279I

a = −1.43951 − 0.23035I

b = −1.35512 + 1.16412I

−2.06069 − 1.57945I 0

u = 0.862517 + 0.409462I

a = 0.385572 − 0.577994I

b = 0.641697 − 0.857621I

−1.97653 − 1.26355I 0

u = 0.862517 − 0.409462I

a = 0.385572 + 0.577994I

b = 0.641697 + 0.857621I

−1.97653 + 1.26355I 0

u = −0.625012 + 0.720883I

a = 3.20428 + 0.82917I

b = 2.95448 − 1.87384I

3.68605 − 0.74056I 0

u = −0.625012 − 0.720883I

a = 3.20428 − 0.82917I

b = 2.95448 + 1.87384I

3.68605 + 0.74056I 0

u = 0.588671 + 0.741137I

a = 0.539890 − 1.301750I

b = 1.94501 − 1.70423I

0.76621 + 1.69194I 0

u = 0.588671 − 0.741137I

a = 0.539890 + 1.301750I

b = 1.94501 + 1.70423I

0.76621 − 1.69194I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.815039 + 0.672331I

a = 1.30528 + 1.09070I

b = 1.63606 − 0.42604I

2.61814 + 2.06099I 0

u = −0.815039 − 0.672331I

a = 1.30528 − 1.09070I

b = 1.63606 + 0.42604I

2.61814 − 2.06099I 0

u = 0.791206 + 0.707863I

a = 1.242420 − 0.296906I

b = 0.289663 + 0.875878I

2.57323 + 1.47652I 0

u = 0.791206 − 0.707863I

a = 1.242420 + 0.296906I

b = 0.289663 − 0.875878I

2.57323 − 1.47652I 0

u = 1.06533

a = 1.87148

b = −1.09473

−1.61062 0

u = 1.083580 + 0.029651I

a = 0.428417 − 0.305662I

b = −0.275728 + 1.238730I

−3.22980 − 3.58406I 0

u = 1.083580 − 0.029651I

a = 0.428417 + 0.305662I

b = −0.275728 − 1.238730I

−3.22980 + 3.58406I 0

u = −1.091440 + 0.011709I

a = 0.73071 − 2.26932I

b = −0.154395 − 0.804597I

−4.77450 + 0.69884I 0

u = −1.091440 − 0.011709I

a = 0.73071 + 2.26932I

b = −0.154395 + 0.804597I

−4.77450 − 0.69884I 0

u = −0.856102 + 0.680324I

a = −3.16956 − 4.60118I

b = −6.17544 − 1.38034I

4.07616 + 2.62315I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.856102 − 0.680324I

a = −3.16956 + 4.60118I

b = −6.17544 + 1.38034I

4.07616 − 2.62315I 0

u = −0.757826 + 0.790886I

a = 0.186346 − 0.810336I

b = −0.453992 − 0.337006I

6.40107 + 3.53173I 0

u = −0.757826 − 0.790886I

a = 0.186346 + 0.810336I

b = −0.453992 + 0.337006I

6.40107 − 3.53173I 0

u = 0.491909 + 0.756563I

a = −1.250010 + 0.380217I

b = −1.251750 − 0.642698I

−2.40500 + 1.31068I 0

u = 0.491909 − 0.756563I

a = −1.250010 − 0.380217I

b = −1.251750 + 0.642698I

−2.40500 − 1.31068I 0

u = 0.568811 + 0.700498I

a = 0.923748 + 0.518614I

b = −0.06859 + 2.30340I

0.504377 + 0.446786I 0

u = 0.568811 − 0.700498I

a = 0.923748 − 0.518614I

b = −0.06859 − 2.30340I

0.504377 − 0.446786I 0

u = 0.840437 + 0.708054I

a = −0.153381 + 0.428703I

b = −0.65198 + 1.39073I

6.23476 − 0.88816I 0

u = 0.840437 − 0.708054I

a = −0.153381 − 0.428703I

b = −0.65198 − 1.39073I

6.23476 + 0.88816I 0

u = −0.854464 + 0.254519I

a = −1.106020 + 0.127999I

b = −1.49389 + 0.29078I

−2.63759 + 3.47259I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.854464 − 0.254519I

a = −1.106020 − 0.127999I

b = −1.49389 − 0.29078I

−2.63759 − 3.47259I 0

u = 0.794482 + 0.774864I

a = −1.360950 + 0.258430I

b = −0.607855 − 0.855698I

7.00651 + 6.05760I 0

u = 0.794482 − 0.774864I

a = −1.360950 − 0.258430I

b = −0.607855 + 0.855698I

7.00651 − 6.05760I 0

u = −0.888479 + 0.670392I

a = −0.101572 + 1.357190I

b = 1.25584 + 1.33718I

2.39366 + 3.13373I 0

u = −0.888479 − 0.670392I

a = −0.101572 − 1.357190I

b = 1.25584 − 1.33718I

2.39366 − 3.13373I 0

u = 1.112990 + 0.038874I

a = −1.58654 + 0.00313I

b = 0.786207 + 0.474131I

−8.68488 − 5.47508I 0

u = 1.112990 − 0.038874I

a = −1.58654 − 0.00313I

b = 0.786207 − 0.474131I

−8.68488 + 5.47508I 0

u = −1.111610 + 0.073871I

a = 0.639895 + 0.430578I

b = −0.517929 + 0.148112I

−6.60406 + 4.11832I 0

u = −1.111610 − 0.073871I

a = 0.639895 − 0.430578I

b = −0.517929 − 0.148112I

−6.60406 − 4.11832I 0

u = 0.872592 + 0.704880I

a = −1.305510 + 0.486497I

b = −0.426934 − 0.224892I

6.13711 − 4.51816I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.872592 − 0.704880I

a = −1.305510 − 0.486497I

b = −0.426934 + 0.224892I

6.13711 + 4.51816I 0

u = 1.124510 + 0.063645I

a = 1.57274 − 0.13635I

b = −0.613678 − 0.384341I

−5.29137 − 11.81510I 0

u = 1.124510 − 0.063645I

a = 1.57274 + 0.13635I

b = −0.613678 + 0.384341I

−5.29137 + 11.81510I 0

u = −1.126880 + 0.022051I

a = −1.110330 − 0.281031I

b = 0.323711 − 0.092251I

−7.89299 + 0.30667I 0

u = −1.126880 − 0.022051I

a = −1.110330 + 0.281031I

b = 0.323711 + 0.092251I

−7.89299 − 0.30667I 0

u = 0.910555 + 0.696624I

a = −0.492712 − 0.518249I

b = 0.46169 − 1.56934I

2.21367 − 6.85953I 0

u = 0.910555 − 0.696624I

a = −0.492712 + 0.518249I

b = 0.46169 + 1.56934I

2.21367 + 6.85953I 0

u = −0.473057 + 0.701119I

a = −2.36399 + 0.29042I

b = −1.36106 + 1.67556I

−3.49363 + 3.85706I 0

u = −0.473057 − 0.701119I

a = −2.36399 − 0.29042I

b = −1.36106 − 1.67556I

−3.49363 − 3.85706I 0

u = −0.574655 + 0.620179I

a = 0.36588 + 2.18977I

b = 1.56918 + 0.62098I

1.73231 + 2.38348I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.574655 − 0.620179I

a = 0.36588 − 2.18977I

b = 1.56918 − 0.62098I

1.73231 − 2.38348I 0

u = −0.405577 + 0.720122I

a = 2.06312 − 0.21038I

b = 1.22359 − 1.43875I

−0.19376 + 9.86627I 0. − 7.10519I

u = −0.405577 − 0.720122I

a = 2.06312 + 0.21038I

b = 1.22359 + 1.43875I

−0.19376 − 9.86627I 0. + 7.10519I

u = −0.878370 + 0.781985I

a = 0.025753 + 0.166614I

b = 0.282822 − 0.106686I

4.29469 + 2.93793I 0

u = −0.878370 − 0.781985I

a = 0.025753 − 0.166614I

b = 0.282822 + 0.106686I

4.29469 − 2.93793I 0

u = 1.027390 + 0.587354I

a = 0.53010 − 1.45772I

b = 1.12255 − 1.18580I

−3.46386 − 2.56925I 0

u = 1.027390 − 0.587354I

a = 0.53010 + 1.45772I

b = 1.12255 + 1.18580I

−3.46386 + 2.56925I 0

u = 0.928117 + 0.741160I

a = 0.337411 + 0.848534I

b = −0.58284 + 1.69048I

6.60007 − 11.77380I 0

u = 0.928117 − 0.741160I

a = 0.337411 − 0.848534I

b = −0.58284 − 1.69048I

6.60007 + 11.77380I 0

u = −1.011650 + 0.638671I

a = 1.67181 + 1.44667I

b = 2.93495 + 0.26954I

0.50905 + 2.66430I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.011650 − 0.638671I

a = 1.67181 − 1.44667I

b = 2.93495 − 0.26954I

0.50905 − 2.66430I 0

u = −1.046890 + 0.594762I

a = −0.53509 + 2.74044I

b = 0.80652 + 2.79685I

−1.98888 − 4.93290I 0

u = −1.046890 − 0.594762I

a = −0.53509 − 2.74044I

b = 0.80652 − 2.79685I

−1.98888 + 4.93290I 0

u = −1.037180 + 0.621147I

a = 0.88395 − 2.99412I

b = −0.71547 − 3.33350I

−5.05757 + 1.20063I 0

u = −1.037180 − 0.621147I

a = 0.88395 + 2.99412I

b = −0.71547 + 3.33350I

−5.05757 − 1.20063I 0

u = −1.014490 + 0.664031I

a = −0.46293 + 4.23970I

b = 2.29950 + 4.29878I

2.53292 + 6.06945I 0

u = −1.014490 − 0.664031I

a = −0.46293 − 4.23970I

b = 2.29950 − 4.29878I

2.53292 − 6.06945I 0

u = 1.024620 + 0.648504I

a = −2.47570 − 1.16291I

b = −0.72033 − 2.52150I

−0.80282 − 5.66630I 0

u = 1.024620 − 0.648504I

a = −2.47570 + 1.16291I

b = −0.72033 + 2.52150I

−0.80282 + 5.66630I 0

u = −0.961973 + 0.739674I

a = −0.434326 − 0.081275I

b = −0.831220 + 0.339474I

5.78307 + 2.22906I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.961973 − 0.739674I

a = −0.434326 + 0.081275I

b = −0.831220 − 0.339474I

5.78307 − 2.22906I 0

u = 1.029530 + 0.662893I

a = 2.71706 − 1.51859I

b = 2.59884 + 0.37989I

−0.52575 − 7.05915I 0

u = 1.029530 − 0.662893I

a = 2.71706 + 1.51859I

b = 2.59884 − 0.37989I

−0.52575 + 7.05915I 0

u = 0.373115 + 0.678425I

a = 1.045530 − 0.419105I

b = 0.754473 + 0.291109I

−1.73113 − 2.17029I −6.14984 + 5.57417I

u = 0.373115 − 0.678425I

a = 1.045530 + 0.419105I

b = 0.754473 − 0.291109I

−1.73113 + 2.17029I −6.14984 − 5.57417I

u = 1.053960 + 0.631883I

a = −0.28333 + 1.98057I

b = −1.32023 + 1.65990I

−4.03502 − 6.55520I 0

u = 1.053960 − 0.631883I

a = −0.28333 − 1.98057I

b = −1.32023 − 1.65990I

−4.03502 + 6.55520I 0

u = −1.028400 + 0.673061I

a = −2.14664 + 0.43493I

b = −2.23064 + 1.87677I

1.20856 + 9.85607I 0

u = −1.028400 − 0.673061I

a = −2.14664 − 0.43493I

b = −2.23064 − 1.87677I

1.20856 − 9.85607I 0

u = 1.048640 + 0.664938I

a = 0.40775 + 2.24315I

b = −1.10078 + 2.26013I

−3.50445 − 7.03464I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.048640 − 0.664938I

a = 0.40775 − 2.24315I

b = −1.10078 − 2.26013I

−3.50445 + 7.03464I 0

u = −1.043320 + 0.675778I

a = −0.08893 − 3.76415I

b = −2.70958 − 3.52447I

−4.11798 + 12.04070I 0

u = −1.043320 − 0.675778I

a = −0.08893 + 3.76415I

b = −2.70958 + 3.52447I

−4.11798 − 12.04070I 0

u = 1.043940 + 0.694354I

a = −0.59728 − 1.74412I

b = 0.72812 − 2.12482I

−1.65997 − 10.61880I 0

u = 1.043940 − 0.694354I

a = −0.59728 + 1.74412I

b = 0.72812 + 2.12482I

−1.65997 + 10.61880I 0

u = −1.049290 + 0.688773I

a = −0.18855 + 3.56370I

b = 2.32267 + 3.47589I

−0.4394 + 18.4589I 0

u = −1.049290 − 0.688773I

a = −0.18855 − 3.56370I

b = 2.32267 − 3.47589I

−0.4394 − 18.4589I 0

u = 0.706498

a = −0.0111555

b = −0.535397

−1.05404 −9.43790

u = −0.591090 + 0.373954I

a = 0.31083 + 2.36392I

b = 1.075670 + 0.841264I

1.75394 + 2.45459I −0.68718 − 7.90365I

u = −0.591090 − 0.373954I

a = 0.31083 − 2.36392I

b = 1.075670 − 0.841264I

1.75394 − 2.45459I −0.68718 + 7.90365I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.609979 + 0.110142I

a = 0.79231 − 1.59624I

b = −0.20225 + 1.68508I

0.682945 − 0.214746I 18.6792 − 10.7483I

u = 0.609979 − 0.110142I

a = 0.79231 + 1.59624I

b = −0.20225 − 1.68508I

0.682945 + 0.214746I 18.6792 + 10.7483I

u = −0.052506 + 0.610247I

a = −0.630009 + 1.005690I

b = 0.269341 − 0.259411I

2.98188 − 5.07563I 0.63916 + 5.59882I

u = −0.052506 − 0.610247I

a = −0.630009 − 1.005690I

b = 0.269341 + 0.259411I

2.98188 + 5.07563I 0.63916 − 5.59882I

u = 0.057854 + 0.400580I

a = 1.40916 − 1.04721I

b = −0.047273 − 0.137594I

−0.20071 − 1.41520I −2.43522 + 4.05127I

u = 0.057854 − 0.400580I

a = 1.40916 + 1.04721I

b = −0.047273 + 0.137594I

−0.20071 + 1.41520I −2.43522 − 4.05127I

u = −0.236398 + 0.289876I

a = 2.52381 + 0.86338I

b = 1.209010 − 0.646641I

2.61999 − 0.25288I 3.52663 − 3.05550I

u = −0.236398 − 0.289876I

a = 2.52381 − 0.86338I

b = 1.209010 + 0.646641I

2.61999 + 0.25288I 3.52663 + 3.05550I

II. I

= hb + 1, −u

+ a − u, u

+ u

− 1i

(i) Arc colorings















−u

+ 1

−u

− u + 1









− 1

+ u − 1









+ u

−1





− 1

+ u − 1









+ 2u

+ u − 1





+ 2u + 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = u

+ 4

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u

+ 2u − 1

+ u

− 1

, c

+ u

+ 2u + 1

− u

+ 1

(u + 1)

, c

− 2u

+ u − 1

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 2y −1

, c

− y

+ 2y −1

, c

(y −1)

, c

− 2y

− 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.877439 + 0.744862I

a = −0.662359 − 0.562280I

b = −1.00000

4.66906 + 2.82812I 4.21508 − 1.30714I

u = −0.877439 − 0.744862I

a = −0.662359 + 0.562280I

b = −1.00000

4.66906 − 2.82812I 4.21508 + 1.30714I

u = 0.754878

a = 1.32472

b = −1.00000

0.531480 4.56980

III. u-Polynomials

Crossings u-Polynomials at each crossing

− u

+ 2u − 1)(u

108

+ 38u

107

+ ··· + 7u + 1)

+ u

− 1)(u

108

− 2u

107

+ ··· − 3u + 1)

− u

+ 2u − 1)(u

108

+ 2u

107

+ ··· + 9913u + 8017)

− u

+ 2u − 1)(u

108

− 2u

107

+ ··· + u − 1)

+ u

+ 2u + 1)(u

108

+ 2u

107

+ ··· + 9913u + 8017)

− u

+ 1)(u

108

− 2u

107

+ ··· − 3u + 1)

+ u

+ 2u + 1)(u

108

+ 38u

107

+ ··· + 7u + 1)

108

− 17u

107

+ ··· − 20u + 8)

((u + 1)

)(u

108

+ 4u

107

+ ··· − 28u − 1)

− 2u

+ u − 1)(u

108

+ 3u

107

+ ··· + 1284u + 109)

− 2u

+ u − 1)(u

108

+ u

107

+ ··· + 54u + 1)

((u − 1)

)(u

108

+ 4u

107

+ ··· − 28u − 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 3y

+ 2y −1)(y

108

+ 66y

107

+ ··· + 49y + 1)

, c

− y

+ 2y −1)(y

108

− 38y

107

+ ··· − 7y + 1)

, c

+ 3y

+ 2y −1)(y

108

− 78y

107

+ ··· − 1.54583 × 10

y + 6.42723 × 10

)

+ 3y

+ 2y −1)(y

108

− 14y

107

+ ··· − 7y + 1)

108

− 21y

107

+ ··· − 2256y + 64)

, c

((y −1)

)(y

108

− 64y

107

+ ··· − 780y + 1)

− 2y

− 3y −1)(y

108

+ 105y

107

+ ··· + 224182y + 11881)

− 2y

− 3y −1)(y

108

+ 97y

107

+ ··· − 3282y + 1)