11a

254

(K11a

254

)

A knot diagram

Linearized knot diagam

4 7 1 2 8 3 10 11 6 5 9

Solving Sequence

7,10 3,8

2 6 5 11 4 1 9

, c

Ideals for irreducible components

of X

par

= h−6.04159 × 10

241

+ 7.02943 × 10

242

+ ··· + 6.12381 × 10

241

b + 8.22545 × 10

241

2.08888 × 10

242

− 2.32560 × 10

243

+ ··· + 6.12381 × 10

241

a + 2.43849 × 10

242

, u

− 12u

+ ··· − 2u + 1i

= hb, −u

+ 2u

+ u

− 3u

+ a + 2, u

− u

+ 2u

− u + 1i

* 2 irreducible components of dim

= 0, with total 77 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−6.04 × 10

241

+ 7.03 × 10

242

+ · · · + 6.12 × 10

241

b + 8.23 ×

241

, 2.09 × 10

242

− 2.33 × 10

243

+ · · · + 6.12 × 10

241

a + 2.44 ×

242

, u

− 12u

+ · · · − 2u + 1i

(i) Arc colorings











−3.41108u

+ 37.9764u

+ ··· − 4.41767u − 3.98199

0.986573u

− 11.4788u

+ ··· + 1.16296u − 1.34319





−u





−4.39765u

+ 49.4552u

+ ··· − 5.58062u − 2.63880

0.986573u

− 11.4788u

+ ··· + 1.16296u − 1.34319





0.676294u

− 8.31654u

+ ··· + 9.11289u − 1.31962

0.0427928u

− 0.0844798u

+ ··· + 0.876884u + 1.75188





1.00267u

− 12.5483u

+ ··· + 9.31432u − 3.27251

0.304306u

− 3.13984u

+ ··· + 1.83385u + 1.43659





−1.46583u

+ 16.5432u

+ ··· − 16.5616u + 9.43161

0.491717u

− 5.73898u

+ ··· + 1.64593u − 1.66950





3.16529u

− 35.6825u

+ ··· + 7.81990u + 2.97070

−0.426948u

+ 5.06894u

+ ··· + 0.0537692u + 1.02327





−2.10032u

+ 24.1805u

+ ··· − 0.598859u + 2.20095

0.426948u

− 5.06894u

+ ··· − 0.0537692u − 1.02327





−0.0796172u

+ 0.485804u

+ ··· − 16.3067u + 8.04204

0.110458u

− 1.25495u

+ ··· + 2.09635u − 1.23648





−0.0796172u

+ 0.485804u

+ ··· − 16.3067u + 8.04204

0.110458u

− 1.25495u

+ ··· + 2.09635u − 1.23648



(ii) Obstruction class = −1

(iii) Cusp Shapes = −4.95513u

+ 59.1718u

+ ··· − 20.0129u + 21.2017

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− 7u

+ ··· − 3u + 1

, c

− u

+ ··· + 320u + 64

+ 6u

+ ··· + 2u + 1

+ 12u

+ ··· − 2u − 1

, c

− 2u

+ ··· + 10u + 1

− 2u

+ ··· + 35022u + 3953

− 6u

+ ··· − 3424u + 319

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 67y

+ ··· − 45y −1

, c

+ 39y

+ ··· − 36864y −4096

+ 12y

+ ··· − 6y −1

+ 72y

+ ··· − 10y −1

, c

− 48y

+ ··· − 10y −1

− 48y

+ ··· − 314283574y −15626209

− 72y

+ ··· + 3210942y −101761

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.621616 + 0.757699I

a = −0.520196 − 1.278890I

b = 0.77239 − 1.38072I

−8.79734 − 8.72585I 0

u = −0.621616 − 0.757699I

a = −0.520196 + 1.278890I

b = 0.77239 + 1.38072I

−8.79734 + 8.72585I 0

u = 0.513135 + 0.804698I

a = −0.625469 + 0.710978I

b = 0.343529 + 0.197975I

−1.92491 − 1.08364I 0

u = 0.513135 − 0.804698I

a = −0.625469 − 0.710978I

b = 0.343529 − 0.197975I

−1.92491 + 1.08364I 0

u = 0.573139 + 0.542700I

a = −1.36366 + 1.05846I

b = 0.579667 + 1.190180I

−5.36921 + 5.60292I −4.23205 − 1.95004I

u = 0.573139 − 0.542700I

a = −1.36366 − 1.05846I

b = 0.579667 − 1.190180I

−5.36921 − 5.60292I −4.23205 + 1.95004I

u = −0.775802 + 0.143132I

a = −0.189904 − 0.120697I

b = −0.590838 + 0.168836I

1.57443 − 0.30385I 7.03884 − 0.55864I

u = −0.775802 − 0.143132I

a = −0.189904 + 0.120697I

b = −0.590838 − 0.168836I

1.57443 + 0.30385I 7.03884 + 0.55864I

u = −0.050131 + 0.783968I

a = 0.86098 − 2.36171I

b = 0.357475 − 1.213820I

−6.99999 − 3.26565I −6.82531 + 6.65441I

u = −0.050131 − 0.783968I

a = 0.86098 + 2.36171I

b = 0.357475 + 1.213820I

−6.99999 + 3.26565I −6.82531 − 6.65441I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.749759 + 0.966431I

a = 0.27470 + 1.81378I

b = −0.194327 + 0.887939I

−1.12559 − 1.87856I 0

u = −0.749759 − 0.966431I

a = 0.27470 − 1.81378I

b = −0.194327 − 0.887939I

−1.12559 + 1.87856I 0

u = 0.651616 + 0.380129I

a = 0.128462 − 0.217584I

b = −0.950465 − 0.547836I

0.16886 + 3.43064I 1.32233 − 8.48531I

u = 0.651616 − 0.380129I

a = 0.128462 + 0.217584I

b = −0.950465 + 0.547836I

0.16886 − 3.43064I 1.32233 + 8.48531I

u = 0.982401 + 0.777247I

a = 0.0103051 + 0.0993017I

b = 0.847736 − 0.223685I

−0.76386 + 6.94431I 0

u = 0.982401 − 0.777247I

a = 0.0103051 − 0.0993017I

b = 0.847736 + 0.223685I

−0.76386 − 6.94431I 0

u = 1.196400 + 0.406962I

a = −0.0962558 − 0.0436996I

b = 0.166256 + 0.769936I

−2.28261 + 6.08346I 0

u = 1.196400 − 0.406962I

a = −0.0962558 + 0.0436996I

b = 0.166256 − 0.769936I

−2.28261 − 6.08346I 0

u = −1.068610 + 0.686746I

a = −0.172216 + 0.127673I

b = 0.636931 + 0.433595I

2.34440 − 1.95014I 0

u = −1.068610 − 0.686746I

a = −0.172216 − 0.127673I

b = 0.636931 − 0.433595I

2.34440 + 1.95014I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.509062 + 1.200470I

a = −0.098773 + 1.288770I

b = −0.04900 + 1.62786I

−14.7704 + 4.4090I 0

u = 0.509062 − 1.200470I

a = −0.098773 − 1.288770I

b = −0.04900 − 1.62786I

−14.7704 − 4.4090I 0

u = −0.585356 + 0.316293I

a = 2.37838 − 2.14743I

b = 0.472300 + 1.255780I

−8.04028 + 4.80757I 3.79140 + 4.67263I

u = −0.585356 − 0.316293I

a = 2.37838 + 2.14743I

b = 0.472300 − 1.255780I

−8.04028 − 4.80757I 3.79140 − 4.67263I

u = 0.894754 + 1.015750I

a = 0.46009 − 1.55526I

b = −0.280654 − 1.250440I

−5.52892 + 6.64078I 0

u = 0.894754 − 1.015750I

a = 0.46009 + 1.55526I

b = −0.280654 + 1.250440I

−5.52892 − 6.64078I 0

u = −0.378627 + 0.497963I

a = 0.36207 + 1.47520I

b = −0.55003 + 1.38741I

−2.62165 − 3.78828I −7.5138 + 12.3973I

u = −0.378627 − 0.497963I

a = 0.36207 − 1.47520I

b = −0.55003 − 1.38741I

−2.62165 + 3.78828I −7.5138 − 12.3973I

u = −0.214548 + 0.558917I

a = −1.15528 + 2.43443I

b = 0.021877 + 0.744451I

−1.31227 − 1.35935I −5.28068 + 4.63416I

u = −0.214548 − 0.558917I

a = −1.15528 − 2.43443I

b = 0.021877 − 0.744451I

−1.31227 + 1.35935I −5.28068 − 4.63416I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.232241 + 0.550466I

a = −0.229573 − 1.365780I

b = 0.53215 − 1.35587I

−4.60632 + 2.57396I −14.4639 − 9.6502I

u = 0.232241 − 0.550466I

a = −0.229573 + 1.365780I

b = 0.53215 + 1.35587I

−4.60632 − 2.57396I −14.4639 + 9.6502I

u = 0.035331 + 0.546911I

a = −3.02113 + 2.09727I

b = −0.278145 + 0.620196I

−1.42339 − 1.14206I −7.64564 + 4.36852I

u = 0.035331 − 0.546911I

a = −3.02113 − 2.09727I

b = −0.278145 − 0.620196I

−1.42339 + 1.14206I −7.64564 − 4.36852I

u = −0.084299 + 0.536575I

a = 0.197726 + 0.218088I

b = 1.46733 + 0.55222I

−5.71064 − 0.88851I −19.3340 + 4.3203I

u = −0.084299 − 0.536575I

a = 0.197726 − 0.218088I

b = 1.46733 − 0.55222I

−5.71064 + 0.88851I −19.3340 − 4.3203I

u = 0.98379 + 1.07460I

a = −0.0372116 − 0.1123680I

b = −1.281980 + 0.428483I

−6.81481 + 9.66907I 0

u = 0.98379 − 1.07460I

a = −0.0372116 + 0.1123680I

b = −1.281980 − 0.428483I

−6.81481 − 9.66907I 0

u = −1.43299 + 0.26730I

a = 0.144509 − 0.036331I

b = −0.127147 − 0.930225I

−1.031500 − 0.354146I 0

u = −1.43299 − 0.26730I

a = 0.144509 + 0.036331I

b = −0.127147 + 0.930225I

−1.031500 + 0.354146I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.410100 + 0.311510I

a = −7.00348 + 3.46773I

b = 0.307554 + 0.337684I

−3.57140 − 0.57623I −2.3848 − 22.6336I

u = 0.410100 − 0.311510I

a = −7.00348 − 3.46773I

b = 0.307554 − 0.337684I

−3.57140 + 0.57623I −2.3848 + 22.6336I

u = −0.95336 + 1.14595I

a = 0.310856 − 0.085089I

b = −1.038550 − 0.330627I

−2.29132 − 4.25686I 0

u = −0.95336 − 1.14595I

a = 0.310856 + 0.085089I

b = −1.038550 + 0.330627I

−2.29132 + 4.25686I 0

u = 1.27141 + 0.80457I

a = −0.808425 + 1.120290I

b = 0.141043 + 0.976339I

−4.54539 + 0.34097I 0

u = 1.27141 − 0.80457I

a = −0.808425 − 1.120290I

b = 0.141043 − 0.976339I

−4.54539 − 0.34097I 0

u = 0.375079 + 0.308494I

a = 1.93835 − 0.93583I

b = −0.483446 − 0.898105I

−0.04861 + 2.05474I −0.05845 − 2.58157I

u = 0.375079 − 0.308494I

a = 1.93835 + 0.93583I

b = −0.483446 + 0.898105I

−0.04861 − 2.05474I −0.05845 + 2.58157I

u = 1.07563 + 1.06925I

a = −0.71329 + 1.38663I

b = 0.554582 + 1.234190I

−3.85560 + 12.20440I 0

u = 1.07563 − 1.06925I

a = −0.71329 − 1.38663I

b = 0.554582 − 1.234190I

−3.85560 − 12.20440I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.340640 + 0.213069I

a = −6.49139 + 4.25195I

b = −0.311768 − 0.896973I

−2.19246 + 1.77118I 13.6954 + 18.4226I

u = −0.340640 − 0.213069I

a = −6.49139 − 4.25195I

b = −0.311768 + 0.896973I

−2.19246 − 1.77118I 13.6954 − 18.4226I

u = 0.124910 + 0.377859I

a = −0.37983 + 1.61319I

b = 0.831063 − 0.230779I

−2.61258 + 0.40782I −2.91513 + 1.25335I

u = 0.124910 − 0.377859I

a = −0.37983 − 1.61319I

b = 0.831063 + 0.230779I

−2.61258 − 0.40782I −2.91513 − 1.25335I

u = 1.18478 + 1.08230I

a = 0.735003 − 0.565771I

b = −1.045740 − 0.098007I

−6.35450 − 1.85292I 0

u = 1.18478 − 1.08230I

a = 0.735003 + 0.565771I

b = −1.045740 + 0.098007I

−6.35450 + 1.85292I 0

u = −1.13576 + 1.14489I

a = −0.65087 − 1.28968I

b = 0.483907 − 1.062650I

0.43763 − 6.35749I 0

u = −1.13576 − 1.14489I

a = −0.65087 + 1.28968I

b = 0.483907 + 1.062650I

0.43763 + 6.35749I 0

u = 1.04219 + 1.27794I

a = 0.078842 − 1.121010I

b = 0.313191 − 1.037600I

−4.09299 − 4.00272I 0

u = 1.04219 − 1.27794I

a = 0.078842 + 1.121010I

b = 0.313191 + 1.037600I

−4.09299 + 4.00272I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.18923 + 1.15866I

a = 0.751838 − 1.187430I

b = −0.74894 − 1.32485I

−9.7419 + 16.8559I 0

u = 1.18923 − 1.15866I

a = 0.751838 + 1.187430I

b = −0.74894 + 1.32485I

−9.7419 − 16.8559I 0

u = −0.321575

a = −13.9658

b = 0.869697

−4.26740 40.4800

u = −0.32809 + 1.70346I

a = 0.134157 − 1.015440I

b = −0.269373 − 1.279760I

−7.91168 − 0.39314I 0

u = −0.32809 − 1.70346I

a = 0.134157 + 1.015440I

b = −0.269373 + 1.279760I

−7.91168 + 0.39314I 0

u = −1.33473 + 1.32716I

a = 0.619234 + 1.017330I

b = −0.627257 + 1.263310I

−5.26918 − 10.31530I 0

u = −1.33473 − 1.32716I

a = 0.619234 − 1.017330I

b = −0.627257 − 1.263310I

−5.26918 + 10.31530I 0

u = 1.80582 + 0.79238I

a = 0.682403 − 0.591220I

b = −0.414392 − 1.329890I

−11.03720 + 3.15602I 0

u = 1.80582 − 0.79238I

a = 0.682403 + 0.591220I

b = −0.414392 + 1.329890I

−11.03720 − 3.15602I 0

u = 1.16409 + 1.64419I

a = −0.028085 + 0.784646I

b = −0.52176 + 1.31571I

−10.25460 − 7.45224I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.16409 − 1.64419I

a = −0.028085 − 0.784646I

b = −0.52176 − 1.31571I

−10.25460 + 7.45224I 0

II. I

= hb, −u

+ 2u

+ u

− 3u

+ a + 2, u

− u

+ 2u

− u + 1i

(i) Arc colorings











− 2u

− u

+ 3u

− 2





−u





− 2u

− u

+ 3u

− 2









−u

+ 1





−u

+ 2u

− u

− 2u

+ u

+ u − 1





− 2u

− u

+ 2u

− 1





− 1

−u





−u





−u



(ii) Obstruction class = 1

(iii) Cusp Shapes = 3u

− 7u

− 4u

+ 11u

− 8

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

(u − 1)

, c

(u + 1)

, c

+ 3u

+ 5u

+ 4u

+ 2u

+ u + 1

, c

− u

+ 2u

− u + 1

, c

+ u

− u

− 2u

+ u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

(y −1)

, c

+ y

+ 5y

+ 6y

+ 3y + 1

, c

− 3y

+ 5y

− 4y

+ 2y

− y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.002190 + 0.295542I

a = 0.344968 + 0.764807I

b = 0

0.245672 − 0.924305I 1.12292 + 1.33143I

u = −1.002190 − 0.295542I

a = 0.344968 − 0.764807I

b = 0

0.245672 + 0.924305I 1.12292 − 1.33143I

u = 0.428243 + 0.664531I

a = −1.68613 + 1.92635I

b = 0

−3.53554 − 0.92430I −6.82874 + 7.13914I

u = 0.428243 − 0.664531I

a = −1.68613 − 1.92635I

b = 0

−3.53554 + 0.92430I −6.82874 − 7.13914I

u = 1.073950 + 0.558752I

a = −0.158836 − 0.437639I

b = 0

−1.64493 + 5.69302I −0.29418 − 2.69056I

u = 1.073950 − 0.558752I

a = −0.158836 + 0.437639I

b = 0

−1.64493 − 5.69302I −0.29418 + 2.69056I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u − 1)

)(u

− 7u

+ ··· − 3u + 1)

, c

− u

+ ··· + 320u + 64)

, c

((u + 1)

)(u

− 7u

+ ··· − 3u + 1)

+ 3u

+ 5u

+ 4u

+ 2u

+ u + 1)(u

+ 6u

+ ··· + 2u + 1)

− u

+ 2u

− u + 1)(u

+ 12u

+ ··· − 2u − 1)

+ u

− u

− 2u

+ u + 1)(u

− 2u

+ ··· + 10u + 1)

+ u

− u

− 2u

+ u + 1)(u

− 2u

+ ··· + 35022u + 3953)

+ 3u

+ 5u

+ 4u

+ 2u

+ u + 1)(u

− 6u

+ ··· − 3424u + 319)

− u

+ 2u

− u + 1)(u

− 2u

+ ··· + 10u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

((y −1)

)(y

− 67y

+ ··· − 45y −1)

, c

+ 39y

+ ··· − 36864y −4096)

+ y

+ 5y

+ 6y

+ 3y + 1)(y

+ 12y

+ ··· − 6y −1)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)(y

+ 72y

+ ··· − 10y −1)

, c

− 3y

+ 5y

− 4y

+ 2y

− y + 1)(y

− 48y

+ ··· − 10y −1)

− 3y

+ 5y

− 4y

+ 2y

− y + 1)

· (y

− 48y

+ ··· − 314283574y −15626209)

+ y

+ 5y

+ 6y

+ 3y + 1)

· (y

− 72y

+ ··· + 3210942y −101761)