12a

0739

(K12a

0739

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

2,9

8 3

4,11

5 1 7 10 12 6

, c

Ideals for irreducible components

of X

par

= h3u

+ 6u

+ ··· + b + 3, −7u

− 17u

+ ··· + 2a − 6, u

+ 3u

+ ··· + 6u + 2i

= hu

a + 7u

+ ··· − a − 50, 2u

a − u

+ ··· + a

− a, u

− u

+ ··· − 2u + 1i

= hb − 1, u

+ 2u

+ 2a + 4, u

+ 2u

+ 2i

= ha, b − 1, v + 1i

* 4 irreducible components of dim

= 0, with total 85 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

h3u

+6u

+· · ·+b+3, −7u

−17u

+· · ·+2a−6, u

+3u

+· · ·+6u+2i

(i) Arc colorings















+ u





−u

+ u





+ ··· + 10u + 3

−3u

− 6u

+ ··· − 6u − 3





−

+ ··· − 2u − 1

−u

− u

+ ··· − u − 1





+ u





−u

− u

+ 1

−u

− 2u





+ ··· + 4u + 2

−u

− 2u

+ ··· − 2u − 1





+ 2u

+ u

−u

− 3u

− 4u

− u

+ u





−

+ ··· − 4u − 3

−u

− u

+ ··· − 2u − 1



(ii) Obstruction class = −1

(iii) Cusp Shapes

= 2u

+ 6u

+ 24u

+ 48u

+ 118u

+ 184u

+ 346u

+ 442u

+ 680u

+ 734u

948u

+ 882u

+ 940u

+ 750u

+ 614u

+ 384u

+ 160u

− 26u

− 174u

−

266u

− 274u

− 286u

− 220u

− 170u

− 92u

− 46u

− 16u

− 6u

+ 12u

+ 14u

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 17u

+ ··· + 4u + 4

, c

− 3u

+ ··· − 6u + 2

, c

+ 3u

+ ··· + 186u + 34

, c

+ u

+ ··· − 2u − 1

− 3u

+ ··· + 256u + 256

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 3y

+ ··· − 240y + 16

, c

+ 17y

+ ··· + 4y + 4

, c

− 23y

+ ··· + 1988y + 1156

, c

− 35y

+ ··· − 8y + 1

+ y

+ ··· − 1441792y + 65536

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.530176 + 0.767965I

a = −0.333698 + 1.088190I

b = −1.227720 − 0.174945I

3.24325 + 2.15228I −1.95940 − 4.22418I

u = 0.530176 − 0.767965I

a = −0.333698 − 1.088190I

b = −1.227720 + 0.174945I

3.24325 − 2.15228I −1.95940 + 4.22418I

u = 0.600367 + 0.882410I

a = 1.053060 − 0.667414I

b = 0.99155 + 1.32550I

−5.84755 + 9.45240I −12.6198 − 8.2074I

u = 0.600367 − 0.882410I

a = 1.053060 + 0.667414I

b = 0.99155 − 1.32550I

−5.84755 − 9.45240I −12.6198 + 8.2074I

u = 0.646120 + 0.645507I

a = −0.580073 − 1.083300I

b = 0.852194 − 1.117410I

−5.16481 − 4.62443I −11.58848 + 2.31548I

u = 0.646120 − 0.645507I

a = −0.580073 + 1.083300I

b = 0.852194 + 1.117410I

−5.16481 + 4.62443I −11.58848 − 2.31548I

u = −0.131686 + 1.135040I

a = −0.83751 + 1.33294I

b = 0.240682 − 1.143010I

−11.15830 − 4.71723I −19.1935 + 3.5978I

u = −0.131686 − 1.135040I

a = −0.83751 − 1.33294I

b = 0.240682 + 1.143010I

−11.15830 + 4.71723I −19.1935 − 3.5978I

u = −0.837356 + 0.165249I

a = 0.404130 − 0.561898I

b = 1.02549 + 1.88978I

−9.6605 + 10.4842I −13.3472 − 5.6777I

u = −0.837356 − 0.165249I

a = 0.404130 + 0.561898I

b = 1.02549 − 1.88978I

−9.6605 − 10.4842I −13.3472 + 5.6777I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.850182

a = −0.699857

b = −0.827456

−14.5114 −16.1110

u = −0.716975 + 0.384483I

a = −0.620707 − 0.541693I

b = 0.537816 − 0.772266I

−6.35392 − 2.54841I −12.91352 + 2.61370I

u = −0.716975 − 0.384483I

a = −0.620707 + 0.541693I

b = 0.537816 + 0.772266I

−6.35392 + 2.54841I −12.91352 − 2.61370I

u = −0.556688 + 1.075410I

a = −1.58889 + 0.49107I

b = 0.474528 + 0.553995I

−8.36419 − 2.29995I −16.4016 + 1.9872I

u = −0.556688 − 1.075410I

a = −1.58889 − 0.49107I

b = 0.474528 − 0.553995I

−8.36419 + 2.29995I −16.4016 − 1.9872I

u = 0.446730 + 1.133610I

a = −0.174401 − 0.268039I

b = 0.451030 − 0.097453I

−4.05143 + 3.92335I −11.83314 − 4.97716I

u = 0.446730 − 1.133610I

a = −0.174401 + 0.268039I

b = 0.451030 + 0.097453I

−4.05143 − 3.92335I −11.83314 + 4.97716I

u = −0.385111 + 1.156080I

a = 1.50345 + 1.00275I

b = −0.605346 − 0.873356I

−2.81095 − 0.89291I −9.61808 − 1.56697I

u = −0.385111 − 1.156080I

a = 1.50345 − 1.00275I

b = −0.605346 + 0.873356I

−2.81095 + 0.89291I −9.61808 + 1.56697I

u = −0.727485 + 0.163192I

a = 0.025322 + 0.657062I

b = −0.937084 − 0.752441I

0.91865 + 2.74283I −4.47712 − 4.42713I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.727485 − 0.163192I

a = 0.025322 − 0.657062I

b = −0.937084 + 0.752441I

0.91865 − 2.74283I −4.47712 + 4.42713I

u = −0.156809 + 0.717859I

a = 0.551971 − 0.300182I

b = 0.009711 + 0.252381I

−0.500387 − 0.882970I −9.10822 + 7.52488I

u = −0.156809 − 0.717859I

a = 0.551971 + 0.300182I

b = 0.009711 − 0.252381I

−0.500387 + 0.882970I −9.10822 − 7.52488I

u = −0.502524 + 1.164790I

a = −0.02663 − 2.31078I

b = −1.016320 + 0.969217I

−1.97783 − 7.36348I −8.22078 + 7.59115I

u = −0.502524 − 1.164790I

a = −0.02663 + 2.31078I

b = −1.016320 − 0.969217I

−1.97783 + 7.36348I −8.22078 − 7.59115I

u = −0.355660 + 1.231240I

a = −1.84106 − 2.12601I

b = 0.82482 + 1.97592I

−13.9647 + 6.4949I −17.9768 − 2.7490I

u = −0.355660 − 1.231240I

a = −1.84106 + 2.12601I

b = 0.82482 − 1.97592I

−13.9647 − 6.4949I −17.9768 + 2.7490I

u = −0.529210 + 1.200000I

a = 1.21068 + 3.02446I

b = 1.12053 − 2.00398I

−12.7401 − 15.4900I −16.2477 + 8.8219I

u = −0.529210 − 1.200000I

a = 1.21068 − 3.02446I

b = 1.12053 + 2.00398I

−12.7401 + 15.4900I −16.2477 − 8.8219I

u = 0.455444 + 1.234730I

a = 0.384015 + 0.486298I

b = −0.986970 + 0.213554I

−18.2324 + 4.6426I −19.4334 − 3.2455I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.455444 − 1.234730I

a = 0.384015 − 0.486298I

b = −0.986970 − 0.213554I

−18.2324 − 4.6426I −19.4334 + 3.2455I

u = 0.591155

a = 0.440555

b = 0.317636

−1.06479 −10.0120

II.

= hu

a+7u

+· · ·−a−50, 2u

a−u

+· · ·+a

−a, u

−u

+· · ·−2u+1i

(i) Arc colorings















+ u





−u

+ u





−0.0232558au

− 0.162791u

+ ··· + 0.0232558a + 1.16279





−0.162791au

− 0.139535u

+ ··· − 0.837209a + 0.139535

0.186047au

+ 0.302326u

+ ··· − 0.186047a + 0.697674





+ u





−u

− u

+ 1

−u

− 2u





−0.0232558au

− 0.162791u

+ ··· + 1.02326a + 1.16279

−0.139535au

+ 0.0232558u

+ ··· + 0.139535a + 0.976744





+ 2u

+ u

−u

− 3u

− 4u

− u

+ u





−0.0232558au

− 0.162791u

+ ··· − 0.976744a + 0.162791

0.0232558au

+ 0.162791u

+ ··· − 0.0232558a + 0.837209



(ii) Obstruction class = −1

(iii) Cusp Shapes

= −4u

+ 4u

− 24u

+ 20u

− 68u

+ 52u

− 108u

+ 80u

− 96u

+ 84u

−

32u

+ 52u

+ 24u

+ 8u

+ 32u

− 28u

+ 16u

− 20u

− 4u

+ 4u

− 4u − 6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 13u

+ ··· − 2u

+ 1)

, c

+ u

+ ··· + 2u + 1)

, c

− u

+ ··· − 10u + 1)

, c

+ u

+ ··· − 4u + 1

− 3u

+ ··· − 4u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 3y

+ ··· − 4y + 1)

, c

+ 13y

+ ··· − 2y

+ 1)

, c

− 19y

+ ··· − 48y + 1)

, c

− 37y

+ ··· + 20y + 1

+ y

+ ··· + 20y + 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.539628 + 0.849352I

a = −0.810554 − 0.445397I

b = −1.20576 + 0.87004I

−0.84994 − 5.71321I −7.89177 + 7.50361I

u = −0.539628 + 0.849352I

a = 0.69898 + 1.48637I

b = 1.20415 − 0.78961I

−0.84994 − 5.71321I −7.89177 + 7.50361I

u = −0.539628 − 0.849352I

a = −0.810554 + 0.445397I

b = −1.20576 − 0.87004I

−0.84994 + 5.71321I −7.89177 − 7.50361I

u = −0.539628 − 0.849352I

a = 0.69898 − 1.48637I

b = 1.20415 + 0.78961I

−0.84994 + 5.71321I −7.89177 − 7.50361I

u = 0.096397 + 0.986281I

a = 0.335716 + 0.777902I

b = 0.148186 − 1.237850I

−5.03371 + 2.05721I −16.2730 − 4.0179I

u = 0.096397 + 0.986281I

a = −1.83300 − 0.82815I

b = 0.584267 + 0.297623I

−5.03371 + 2.05721I −16.2730 − 4.0179I

u = 0.096397 − 0.986281I

a = 0.335716 − 0.777902I

b = 0.148186 + 1.237850I

−5.03371 − 2.05721I −16.2730 + 4.0179I

u = 0.096397 − 0.986281I

a = −1.83300 + 0.82815I

b = 0.584267 − 0.297623I

−5.03371 − 2.05721I −16.2730 + 4.0179I

u = 0.414627 + 0.808476I

a = 0.562342 − 0.117972I

b = 1.45444 + 0.06431I

−3.34583 + 1.77225I −12.01088 − 4.04184I

u = 0.414627 + 0.808476I

a = −0.18786 − 2.56978I

b = 1.160570 + 0.339960I

−3.34583 + 1.77225I −12.01088 − 4.04184I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.414627 − 0.808476I

a = 0.562342 + 0.117972I

b = 1.45444 − 0.06431I

−3.34583 − 1.77225I −12.01088 + 4.04184I

u = 0.414627 − 0.808476I

a = −0.18786 + 2.56978I

b = 1.160570 − 0.339960I

−3.34583 − 1.77225I −12.01088 + 4.04184I

u = −0.542169 + 0.664263I

a = −0.013199 + 0.714741I

b = 1.221860 + 0.515853I

−0.325618 + 1.343200I −5.97036 − 0.62000I

u = −0.542169 + 0.664263I

a = 0.35358 − 1.62117I

b = −0.898839 − 0.548932I

−0.325618 + 1.343200I −5.97036 − 0.62000I

u = −0.542169 − 0.664263I

a = −0.013199 − 0.714741I

b = 1.221860 − 0.515853I

−0.325618 − 1.343200I −5.97036 + 0.62000I

u = −0.542169 − 0.664263I

a = 0.35358 + 1.62117I

b = −0.898839 + 0.548932I

−0.325618 − 1.343200I −5.97036 + 0.62000I

u = 0.796432 + 0.144602I

a = −0.024899 + 0.947038I

b = 0.86856 − 1.22361I

−4.08687 − 6.17959I −10.21479 + 5.04555I

u = 0.796432 + 0.144602I

a = −0.352028 − 0.405762I

b = −1.41700 + 1.69394I

−4.08687 − 6.17959I −10.21479 + 5.04555I

u = 0.796432 − 0.144602I

a = −0.024899 − 0.947038I

b = 0.86856 + 1.22361I

−4.08687 + 6.17959I −10.21479 − 5.04555I

u = 0.796432 − 0.144602I

a = −0.352028 + 0.405762I

b = −1.41700 − 1.69394I

−4.08687 + 6.17959I −10.21479 − 5.04555I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.472424 + 1.121720I

a = 0.617013 + 0.630854I

b = −0.105671 − 0.147261I

−4.03801 + 3.77265I −10.10807 − 3.49106I

u = 0.472424 + 1.121720I

a = −0.87913 − 1.24478I

b = 1.079170 + 0.069000I

−4.03801 + 3.77265I −10.10807 − 3.49106I

u = 0.472424 − 1.121720I

a = 0.617013 − 0.630854I

b = −0.105671 + 0.147261I

−4.03801 − 3.77265I −10.10807 + 3.49106I

u = 0.472424 − 1.121720I

a = −0.87913 + 1.24478I

b = 1.079170 − 0.069000I

−4.03801 − 3.77265I −10.10807 + 3.49106I

u = −0.766849 + 0.083191I

a = −0.847511 − 0.813506I

b = 0.475866 + 0.640007I

−5.92424 + 1.18290I −13.39246 − 0.39910I

u = −0.766849 + 0.083191I

a = 0.381935 − 0.210219I

b = 1.81850 + 1.06364I

−5.92424 + 1.18290I −13.39246 − 0.39910I

u = −0.766849 − 0.083191I

a = −0.847511 + 0.813506I

b = 0.475866 − 0.640007I

−5.92424 − 1.18290I −13.39246 + 0.39910I

u = −0.766849 − 0.083191I

a = 0.381935 + 0.210219I

b = 1.81850 − 1.06364I

−5.92424 − 1.18290I −13.39246 + 0.39910I

u = 0.376287 + 1.204930I

a = −1.74160 + 1.67094I

b = 0.647235 − 1.204540I

−8.11968 − 2.24524I −15.0270 + 1.8938I

u = 0.376287 + 1.204930I

a = 2.37658 − 1.59469I

b = −1.20203 + 1.95399I

−8.11968 − 2.24524I −15.0270 + 1.8938I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.376287 − 1.204930I

a = −1.74160 − 1.67094I

b = 0.647235 + 1.204540I

−8.11968 + 2.24524I −15.0270 − 1.8938I

u = 0.376287 − 1.204930I

a = 2.37658 + 1.59469I

b = −1.20203 − 1.95399I

−8.11968 + 2.24524I −15.0270 − 1.8938I

u = −0.413902 + 1.197930I

a = −1.53766 − 0.93732I

b = 0.235526 + 0.577363I

−9.64981 − 2.92383I −17.2902 + 3.2930I

u = −0.413902 + 1.197930I

a = −2.50614 − 0.27466I

b = 1.77795 + 1.42801I

−9.64981 − 2.92383I −17.2902 + 3.2930I

u = −0.413902 − 1.197930I

a = −1.53766 + 0.93732I

b = 0.235526 − 0.577363I

−9.64981 + 2.92383I −17.2902 − 3.2930I

u = −0.413902 − 1.197930I

a = −2.50614 + 0.27466I

b = 1.77795 − 1.42801I

−9.64981 + 2.92383I −17.2902 − 3.2930I

u = −0.486243 + 1.189530I

a = −0.30991 + 1.87168I

b = 0.445465 − 0.845894I

−9.13493 − 5.78082I −16.3753 + 3.7263I

u = −0.486243 + 1.189530I

a = −0.56299 + 2.89522I

b = 2.11445 − 1.07258I

−9.13493 − 5.78082I −16.3753 + 3.7263I

u = −0.486243 − 1.189530I

a = −0.30991 − 1.87168I

b = 0.445465 + 0.845894I

−9.13493 + 5.78082I −16.3753 − 3.7263I

u = −0.486243 − 1.189530I

a = −0.56299 − 2.89522I

b = 2.11445 + 1.07258I

−9.13493 + 5.78082I −16.3753 − 3.7263I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.512242 + 1.189930I

a = 0.47428 − 2.72028I

b = 0.88509 + 1.37979I

−7.16211 + 11.00000I −13.3183 − 8.0528I

u = 0.512242 + 1.189930I

a = −0.56654 + 3.23218I

b = −1.62178 − 1.80958I

−7.16211 + 11.00000I −13.3183 − 8.0528I

u = 0.512242 − 1.189930I

a = 0.47428 + 2.72028I

b = 0.88509 − 1.37979I

−7.16211 − 11.00000I −13.3183 + 8.0528I

u = 0.512242 − 1.189930I

a = −0.56654 − 3.23218I

b = −1.62178 + 1.80958I

−7.16211 − 11.00000I −13.3183 + 8.0528I

u = 0.580381 + 0.259924I

a = 0.972618 − 0.860339I

b = −0.239708 − 0.201327I

−1.54689 + 0.40841I −6.12800 − 0.75563I

u = 0.580381 + 0.259924I

a = −0.100026 + 0.215685I

b = 1.069500 + 0.131935I

−1.54689 + 0.40841I −6.12800 − 0.75563I

u = 0.580381 − 0.259924I

a = 0.972618 + 0.860339I

b = −0.239708 + 0.201327I

−1.54689 − 0.40841I −6.12800 + 0.75563I

u = 0.580381 − 0.259924I

a = −0.100026 − 0.215685I

b = 1.069500 − 0.131935I

−1.54689 − 0.40841I −6.12800 + 0.75563I

III. I

= hb − 1, u

+ 2u

+ 2a + 4, u

+ 2u

+ 2i

(i) Arc colorings















+ u





−u

+ u





−

− u

− 2





−

− u

− 2

+ u + 1





−u

− u





−1





−

− u

− 1





−u

− u





−

− u

− 2



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4u

− 20

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 2u + 2)

, c

+ 2u

+ 2

, c

− 2u

+ 2

, c

(u − 1)

, c

(u + 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 4)

, c

+ 2y + 2)

, c

− 2y + 2)

, c

(y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.455090 + 1.098680I

a = −0.223113 − 0.678203I

b = 1.00000

−5.75727 + 3.66386I −16.0000 − 4.0000I

u = 0.455090 − 1.098680I

a = −0.223113 + 0.678203I

b = 1.00000

−5.75727 − 3.66386I −16.0000 + 4.0000I

u = −0.455090 + 1.098680I

a = −1.77689 + 1.32180I

b = 1.00000

−5.75727 − 3.66386I −16.0000 + 4.0000I

u = −0.455090 − 1.098680I

a = −1.77689 − 1.32180I

b = 1.00000

−5.75727 + 3.66386I −16.0000 − 4.0000I

IV. I

= ha, b − 1, v + 1i

(i) Arc colorings



−1













−1





−1









−1





−1













−1





−1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u + 1

, c

u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y − 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = −1.00000

a = 0

b = 1.00000

−3.28987 −12.0000

V. u-Polynomials

Crossings u-Polynomials at each crossing

u(u

− 2u + 2)

+ 13u

+ ··· − 2u

+ 1)

· (u

+ 17u

+ ··· + 4u + 4)

, c

u(u

+ 2u

+ 2)(u

+ u

+ ··· + 2u + 1)

− 3u

+ ··· − 6u + 2)

, c

u(u

− 2u

+ 2)(u

− u

+ ··· − 10u + 1)

· (u

+ 3u

+ ··· + 186u + 34)

, c

((u − 1)

)(u + 1)(u

+ u

+ ··· − 2u − 1)(u

+ u

+ ··· − 4u + 1)

, c

(u − 1)(u + 1)

+ u

+ ··· − 2u − 1)(u

+ u

+ ··· − 4u + 1)

− 3u

+ ··· − 4u + 1)

− 3u

+ ··· + 256u + 256)

VI. Riley Polynomials

Crossings Riley Polynomials at each crossing

y(y

+ 4)

− 3y

+ ··· − 4y + 1)

− 3y

+ ··· − 240y + 16)

, c

y(y

+ 2y + 2)

+ 13y

+ ··· − 2y

+ 1)

· (y

+ 17y

+ ··· + 4y + 4)

, c

y(y

− 2y + 2)

− 19y

+ ··· − 48y + 1)

· (y

− 23y

+ ··· + 1988y + 1156)

, c

((y − 1)

)(y

− 35y

+ ··· − 8y + 1)(y

− 37y

+ ··· + 20y + 1)

+ y

+ ··· + 20y + 1)

+ y

+ ··· − 1441792y + 65536)