12a

1240

(K12a

1240

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,8 9,12

1 5 2 3 10 7 11 6

, c

Ideals for irreducible components

of X

par

= h4.60256 × 10

102

+ 5.40064 × 10

102

+ ··· + 8.11475 × 10

103

b + 1.59562 × 10

105

− 7.53145 × 10

104

+ 2.70697 × 10

104

+ ··· + 1.40385 × 10

106

a + 3.91291 × 10

107

+ u

+ ··· + 354u + 173i

= hu

+ 8u

+ u

+ 23u

+ 6u

+ 26u

+ 12u

+ 4u

+ 8u

− 9u

− u

− 2u

+ b − u − 1,

− u

+ u

+ ··· + a + 1,

+ 10u

+ 40u

− u

+ 80u

− 7u

+ 80u

− 18u

+ 31u

− 21u

− 4u

− 11u

− 5u

− 3u

− 2u − 1i

* 2 irreducible components of dim

= 0, with total 82 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

= h4.60 × 10

102

+ 5.40 × 10

102

+ · · · + 8.11 × 10

103

b + 1.60 ×

105

, −7.53 × 10

104

+ 2.71 × 10

104

+ · · · + 1.40 × 10

106

a + 3.91 ×

107

, u

+ u

+ · · · + 354u + 173i

(i) Arc colorings











−u





0.0536485u

− 0.0192824u

+ ··· + 13.4066u − 27.8726

−0.0567184u

− 0.0665534u

+ ··· − 38.2451u − 19.6632





0.110367u

+ 0.0472710u

+ ··· + 51.6516u − 8.20942

−0.0567184u

− 0.0665534u

+ ··· − 38.2451u − 19.6632





0.0429065u

− 0.00292175u

+ ··· + 21.3658u − 11.3738

−0.0125258u

− 0.0125001u

+ ··· − 10.2360u − 7.41086





−0.0400474u

− 0.000625365u

+ ··· − 4.46978u + 16.5675

0.00594570u

+ 0.0205051u

+ ··· + 15.4488u + 6.51593





−u

+ u





+ 1

−u

− 2u





0.0399289u

+ 0.0211829u

+ ··· + 33.3413u + 0.333312

−0.00290844u

− 0.00912864u

+ ··· − 5.74412u − 4.59512





−0.0230777u

− 0.0466096u

+ ··· − 13.8268u − 24.0009

−0.0279384u

− 0.0319295u

+ ··· − 19.5314u − 12.5317





0.0320474u

+ 0.00430410u

+ ··· + 17.5224u − 7.47526

0.0150469u

+ 0.0130919u

+ ··· + 1.71790u − 0.984422



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.103545u

− 0.0564918u

+ ··· + 57.0917u − 87.3956

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 34u

+ ··· + 25u − 1

− 5u

+ ··· − 1840u − 529

, c

+ u

+ ··· + 354u + 173

+ 2u

+ ··· + 784u + 131

, c

− u

+ ··· + 16u + 1

+ 5u

+ ··· + 1163u − 215

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 68y

+ ··· − 201y −1

+ 27y

+ ··· − 5322798y −279841

, c

+ 77y

+ ··· − 683978y −29929

+ 20y

+ ··· − 271428y −17161

, c

− 87y

+ ··· − 500y −1

− 25y

+ ··· + 3288859y −46225

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.726071 + 0.758126I

a = −0.324975 − 0.706814I

b = −0.979305 + 0.369172I

−5.63744 + 7.47497I 0

u = 0.726071 − 0.758126I

a = −0.324975 + 0.706814I

b = −0.979305 − 0.369172I

−5.63744 − 7.47497I 0

u = 0.975827 + 0.494607I

a = −0.107308 + 0.453272I

b = 0.934240 + 0.048674I

−4.60698 − 1.82196I 0

u = 0.975827 − 0.494607I

a = −0.107308 − 0.453272I

b = 0.934240 − 0.048674I

−4.60698 + 1.82196I 0

u = 0.543682 + 0.626807I

a = −0.567121 − 1.246980I

b = −1.72542 + 0.11080I

−14.1457 + 2.3448I −11.61428 − 2.93633I

u = 0.543682 − 0.626807I

a = −0.567121 + 1.246980I

b = −1.72542 − 0.11080I

−14.1457 − 2.3448I −11.61428 + 2.93633I

u = −0.117879 + 1.166460I

a = −1.79246 + 0.68241I

b = −1.387970 + 0.003546I

−6.36326 − 2.20018I 0

u = −0.117879 − 1.166460I

a = −1.79246 − 0.68241I

b = −1.387970 − 0.003546I

−6.36326 + 2.20018I 0

u = 0.088335 + 0.787639I

a = 0.631221 + 0.409079I

b = 0.365744 − 0.340357I

−0.71879 + 1.22446I −2.81178 − 5.97989I

u = 0.088335 − 0.787639I

a = 0.631221 − 0.409079I

b = 0.365744 + 0.340357I

−0.71879 − 1.22446I −2.81178 + 5.97989I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.447830 + 0.608444I

a = −1.60044 − 0.14443I

b = −1.59034 − 0.09596I

−8.81586 − 2.32152I −8.51550 − 4.26961I

u = 0.447830 − 0.608444I

a = −1.60044 + 0.14443I

b = −1.59034 + 0.09596I

−8.81586 + 2.32152I −8.51550 + 4.26961I

u = 0.525484 + 0.504088I

a = 0.43025 + 2.02495I

b = 1.69411 + 0.00431I

−13.75730 + 1.38625I −12.86514 − 4.98182I

u = 0.525484 − 0.504088I

a = 0.43025 − 2.02495I

b = 1.69411 − 0.00431I

−13.75730 − 1.38625I −12.86514 + 4.98182I

u = −0.334819 + 0.628588I

a = −0.278152 − 0.888652I

b = 0.103555 + 0.660906I

−2.26471 − 4.03136I −5.94020 + 7.20403I

u = −0.334819 − 0.628588I

a = −0.278152 + 0.888652I

b = 0.103555 − 0.660906I

−2.26471 + 4.03136I −5.94020 − 7.20403I

u = −0.983839 + 0.840083I

a = 0.958856 − 0.844751I

b = 1.71710 + 0.09388I

−15.1766 − 9.3107I 0

u = −0.983839 − 0.840083I

a = 0.958856 + 0.844751I

b = 1.71710 − 0.09388I

−15.1766 + 9.3107I 0

u = 0.317310 + 0.626994I

a = 2.68952 + 0.91215I

b = 1.61060 − 0.07096I

−9.00930 + 4.95002I −7.74249 − 6.87275I

u = 0.317310 − 0.626994I

a = 2.68952 − 0.91215I

b = 1.61060 + 0.07096I

−9.00930 − 4.95002I −7.74249 + 6.87275I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.177809 + 1.350850I

a = −0.357829 + 0.197902I

b = −0.017560 + 0.381554I

−4.20596 + 3.45721I 0

u = 0.177809 − 1.350850I

a = −0.357829 − 0.197902I

b = −0.017560 − 0.381554I

−4.20596 − 3.45721I 0

u = −0.401140 + 0.489673I

a = 1.45507 + 0.87862I

b = 0.0202678 + 0.0500323I

−1.70244 + 1.41602I −3.83791 + 4.34485I

u = −0.401140 − 0.489673I

a = 1.45507 − 0.87862I

b = 0.0202678 − 0.0500323I

−1.70244 − 1.41602I −3.83791 − 4.34485I

u = −1.261060 + 0.536996I

a = −0.741092 + 0.442516I

b = −1.70945 + 0.01249I

−14.0841 + 2.0654I 0

u = −1.261060 − 0.536996I

a = −0.741092 − 0.442516I

b = −1.70945 − 0.01249I

−14.0841 − 2.0654I 0

u = −0.134645 + 0.584405I

a = 0.197801 − 1.366820I

b = 0.927502 + 0.501106I

−4.67220 + 0.02550I −14.8497 + 0.6733I

u = −0.134645 − 0.584405I

a = 0.197801 + 1.366820I

b = 0.927502 − 0.501106I

−4.67220 − 0.02550I −14.8497 − 0.6733I

u = −0.413347 + 0.412272I

a = −1.49091 + 0.92346I

b = −0.707354 − 0.303831I

−1.02330 − 3.62936I −5.37000 + 9.36655I

u = −0.413347 − 0.412272I

a = −1.49091 − 0.92346I

b = −0.707354 + 0.303831I

−1.02330 + 3.62936I −5.37000 − 9.36655I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.372758 + 0.426791I

a = 0.574567 − 0.058040I

b = 0.625825 − 0.291328I

−1.20365 + 0.84496I −6.02969 − 0.14737I

u = −0.372758 − 0.426791I

a = 0.574567 + 0.058040I

b = 0.625825 + 0.291328I

−1.20365 − 0.84496I −6.02969 + 0.14737I

u = −0.233988 + 0.506859I

a = −0.55207 + 2.38792I

b = −0.886599 − 0.003824I

−4.55371 − 1.42223I −13.6222 + 4.9294I

u = −0.233988 − 0.506859I

a = −0.55207 − 2.38792I

b = −0.886599 + 0.003824I

−4.55371 + 1.42223I −13.6222 − 4.9294I

u = −0.16373 + 1.44899I

a = −1.220880 + 0.298307I

b = −0.980392 + 0.272927I

−7.19630 − 1.13487I 0

u = −0.16373 − 1.44899I

a = −1.220880 − 0.298307I

b = −0.980392 − 0.272927I

−7.19630 + 1.13487I 0

u = 0.483700 + 0.237329I

a = 0.445616 + 0.385675I

b = −0.083539 − 0.423218I

0.791769 + 1.065080I 2.72009 − 3.18149I

u = 0.483700 − 0.237329I

a = 0.445616 − 0.385675I

b = −0.083539 + 0.423218I

0.791769 − 1.065080I 2.72009 + 3.18149I

u = −0.10831 + 1.47851I

a = 1.76451 − 0.09693I

b = 0.952847 + 0.203501I

−7.28087 − 5.40688I 0

u = −0.10831 − 1.47851I

a = 1.76451 + 0.09693I

b = 0.952847 − 0.203501I

−7.28087 + 5.40688I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.497221

a = −0.274816

b = 1.21610

−2.77118 1.37870

u = −0.05022 + 1.56060I

a = 1.22584 − 0.84884I

b = 0.893368 + 0.290820I

−11.64490 − 2.37865I 0

u = −0.05022 − 1.56060I

a = 1.22584 + 0.84884I

b = 0.893368 − 0.290820I

−11.64490 + 2.37865I 0

u = 0.15087 + 1.57314I

a = −2.17718 − 1.21481I

b = −1.69886 + 0.07549I

18.6332 + 3.8056I 0

u = 0.15087 − 1.57314I

a = −2.17718 + 1.21481I

b = −1.69886 − 0.07549I

18.6332 − 3.8056I 0

u = −0.08895 + 1.58719I

a = −0.128172 − 0.447048I

b = 0.041223 + 0.495260I

−9.03428 − 0.28268I 0

u = −0.08895 − 1.58719I

a = −0.128172 + 0.447048I

b = 0.041223 − 0.495260I

−9.03428 + 0.28268I 0

u = −0.02863 + 1.60404I

a = −1.029160 + 0.070588I

b = −0.974979 − 0.838184I

−12.36230 − 0.51802I 0

u = −0.02863 − 1.60404I

a = −1.029160 − 0.070588I

b = −0.974979 + 0.838184I

−12.36230 + 0.51802I 0

u = −0.08706 + 1.60503I

a = −0.173991 − 0.074369I

b = −0.141617 − 0.998457I

−9.99826 − 5.54560I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.08706 − 1.60503I

a = −0.173991 + 0.074369I

b = −0.141617 + 0.998457I

−9.99826 + 5.54560I 0

u = 0.08728 + 1.61094I

a = −2.73738 − 0.27305I

b = −1.71337 + 0.05252I

−16.8071 + 6.4261I 0

u = 0.08728 − 1.61094I

a = −2.73738 + 0.27305I

b = −1.71337 − 0.05252I

−16.8071 − 6.4261I 0

u = 0.16484 + 1.61723I

a = 1.93553 + 0.68337I

b = 1.78156 − 0.24078I

17.6410 + 5.0053I 0

u = 0.16484 − 1.61723I

a = 1.93553 − 0.68337I

b = 1.78156 + 0.24078I

17.6410 − 5.0053I 0

u = 0.20239 + 1.63940I

a = 1.181390 + 0.350848I

b = 1.078620 − 0.622811I

−13.7279 + 10.9139I 0

u = 0.20239 − 1.63940I

a = 1.181390 − 0.350848I

b = 1.078620 + 0.622811I

−13.7279 − 10.9139I 0

u = 0.10820 + 1.65060I

a = 2.27932 + 0.08486I

b = 1.72742 + 0.06163I

−16.9343 − 0.1738I 0

u = 0.10820 − 1.65060I

a = 2.27932 − 0.08486I

b = 1.72742 − 0.06163I

−16.9343 + 0.1738I 0

u = 0.26868 + 1.68165I

a = −0.897135 − 0.531965I

b = −0.951609 + 0.306784I

−12.11670 + 3.02699I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.26868 − 1.68165I

a = −0.897135 + 0.531965I

b = −0.951609 − 0.306784I

−12.11670 − 3.02699I 0

u = −0.30378 + 1.69326I

a = −1.89667 + 0.85876I

b = −1.74870 − 0.17461I

15.9285 − 14.2148I 0

u = −0.30378 − 1.69326I

a = −1.89667 − 0.85876I

b = −1.74870 + 0.17461I

15.9285 + 14.2148I 0

u = −0.43555 + 1.77362I

a = 1.73566 − 0.73698I

b = 1.71505 + 0.08053I

17.8768 − 4.5753I 0

u = −0.43555 − 1.77362I

a = 1.73566 + 0.73698I

b = 1.71505 − 0.08053I

17.8768 + 4.5753I 0

II.

= hu

+8u

+· · ·+b−1, −u

+· · ·+a+1, u

+10u

+· · ·−2u−1i

(i) Arc colorings











−u





− u

+ ··· − u − 1

−u

− 8u

+ ··· + u + 1





+ 10u

+ ··· − 2u − 2

−u

− 8u

+ ··· + u + 1





−u

− 10u

+ ··· + u + 2

−u

+ u

+ ··· + 2u

+ 2u





−u

− 3u

− 2u

− u

+ ··· − u

+ u





−u

+ u





+ 1

−u

− 2u





− u

+ ··· + u

− 2u

+ 9u

+ ··· − 2u − 2





−u

− 4u

− 3u

+ 1

+ 8u

+ ··· − u

− u





−u

− 9u

+ ··· + 3u

+ 1

−u

+ u

+ ··· + 2u

+ u



(ii) Obstruction class = 1

(iii) Cusp Shapes = −u

− 3u

− 8u

− 26u

− 24u

− 85u

− 31u

− 126u

−

12u

− 75u

+ 6u

+ u

+ 13u

+ 16u

+ 19u

+ 7u − 6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 3u

+ ··· − 3u − 1

+ 3u

+ ··· + 2u − 1

+ 10u

+ ··· − 2u + 1

− 3u

+ ··· − 3u + 1

+ u

+ ··· + 2u

+ 1

, c

− 12u

+ ··· + 2u + 1

, c

+ 10u

+ ··· − 2u − 1

+ 2u

+ ··· − 3u − 1

, c

− 12u

+ ··· + 2u − 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 17y

+ ··· + 11y −1

+ 6y

+ ··· − 6y −1

, c

+ 20y

+ ··· − 2y −1

+ 3y

+ ··· + 6y

− 1

, c

− 24y

+ ··· + 16y −1

− 6y

+ ··· + 3y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.139852 + 1.214420I

a = 1.287590 + 0.470581I

b = 1.52103 + 0.06882I

−11.11750 − 4.71969I −12.69339 + 3.70079I

u = −0.139852 − 1.214420I

a = 1.287590 − 0.470581I

b = 1.52103 − 0.06882I

−11.11750 + 4.71969I −12.69339 − 3.70079I

u = 0.770505

a = 0.356369

b = −1.71199

−13.5631 −10.8690

u = −0.313732 + 0.658301I

a = −2.46686 − 0.50202I

b = −1.56317 + 0.07758I

−8.98775 + 3.06986I −11.77160 − 5.40163I

u = −0.313732 − 0.658301I

a = −2.46686 + 0.50202I

b = −1.56317 − 0.07758I

−8.98775 − 3.06986I −11.77160 + 5.40163I

u = 0.150767 + 1.264220I

a = −0.036312 + 0.695026I

b = −0.280089 + 0.210720I

−4.79179 + 3.71423I −13.1910 − 5.6524I

u = 0.150767 − 1.264220I

a = −0.036312 − 0.695026I

b = −0.280089 − 0.210720I

−4.79179 − 3.71423I −13.1910 + 5.6524I

u = −0.155556 + 1.352930I

a = −1.43538 + 0.81001I

b = −1.195950 + 0.186568I

−7.82356 − 2.21494I −13.60579 + 3.56873I

u = −0.155556 − 1.352930I

a = −1.43538 − 0.81001I

b = −1.195950 − 0.186568I

−7.82356 + 2.21494I −13.60579 − 3.56873I

u = 0.344357 + 0.507264I

a = 1.69631 − 0.60701I

b = 0.435868 + 0.235200I

−1.98177 − 1.91528I −11.51112 + 7.56473I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.344357 − 0.507264I

a = 1.69631 + 0.60701I

b = 0.435868 − 0.235200I

−1.98177 + 1.91528I −11.51112 − 7.56473I

u = −0.413428 + 0.204442I

a = −1.37361 − 0.56067I

b = 0.983355 + 0.195981I

−3.72761 + 0.27179I −7.30557 − 0.70090I

u = −0.413428 − 0.204442I

a = −1.37361 + 0.56067I

b = 0.983355 − 0.195981I

−3.72761 − 0.27179I −7.30557 + 0.70090I

u = −0.06863 + 1.60082I

a = −0.854604 + 0.519619I

b = −0.759245 − 0.457661I

−10.71870 − 1.63142I −9.76522 + 0.61847I

u = −0.06863 − 1.60082I

a = −0.854604 − 0.519619I

b = −0.759245 + 0.457661I

−10.71870 + 1.63142I −9.76522 − 0.61847I

u = 0.21082 + 1.61302I

a = 2.00469 + 0.90354I

b = 1.71420 − 0.09994I

−19.7367 + 3.7909I −9.22182 − 1.00044I

u = 0.21082 − 1.61302I

a = 2.00469 − 0.90354I

b = 1.71420 + 0.09994I

−19.7367 − 3.7909I −9.22182 + 1.00044I

III. u-Polynomials

Crossings u-Polynomials at each crossing

+ 3u

+ ··· − 3u − 1)(u

− 34u

+ ··· + 25u − 1)

+ 3u

+ ··· + 2u − 1)(u

− 5u

+ ··· − 1840u − 529)

+ 10u

+ ··· − 2u + 1)(u

+ u

+ ··· + 354u + 173)

− 3u

+ ··· − 3u + 1)(u

− 34u

+ ··· + 25u − 1)

+ u

+ ··· + 2u

+ 1)(u

+ 2u

+ ··· + 784u + 131)

, c

− 12u

+ ··· + 2u + 1)(u

− u

+ ··· + 16u + 1)

, c

+ 10u

+ ··· − 2u − 1)(u

+ u

+ ··· + 354u + 173)

+ 2u

+ ··· − 3u − 1)(u

+ 5u

+ ··· + 1163u − 215)

, c

− 12u

+ ··· + 2u − 1)(u

− u

+ ··· + 16u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

− 17y

+ ··· + 11y −1)(y

− 68y

+ ··· − 201y −1)

+ 6y

+ ··· − 6y −1)(y

+ 27y

+ ··· − 5322798y −279841)

, c

+ 20y

+ ··· − 2y −1)(y

+ 77y

+ ··· − 683978y −29929)

+ 3y

+ ··· + 6y

− 1)(y

+ 20y

+ ··· − 271428y −17161)

, c

− 24y

+ ··· + 16y −1)(y

− 87y

+ ··· − 500y −1)

− 6y

+ ··· + 3y −1)(y

− 25y

+ ··· + 3288859y −46225)