12n

0773

(K12n

0773

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

8,11

12 9

1,5

4 2 3 7 6 10

, c

Ideals for irreducible components

of X

par

= h−2.99252 × 10

− 4.27398 × 10

+ ··· + 1.08123 × 10

b − 5.85001 × 10

− 8.90269 × 10

+ 1.21104 × 10

+ ··· + 1.08123 × 10

a − 4.30153 × 10

, u

− u

+ ··· + 32u + 1i

= h2u

− u

− 16u

+ 8u

+ 49u

− 26u

− 67u

+ 42u

+ 27u

− 31u

+ 22u

+ 7u

− 18u

+ b + 2,

− 2u

+ 2u

+ ··· + a + 1,

− 9u

+ 32u

− u

− 55u

+ 6u

+ 41u

− 13u

+ 13u

− 13u

− 6u

+ 2u + 1i

* 2 irreducible components of dim

= 0, with total 74 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.

= h−2.99×10

−4.27×10

+· · ·+1.08×10

b−5.85×10

, −8.90×

+1.21×10

+· · ·+1.08×10

a−4.30×10

, u

−u

+· · ·+32u+1i

(i) Arc colorings











−u





−u

+ u





−u

+ 1

− 2u





0.823385u

− 1.12006u

+ ··· − 182.375u + 39.7837

0.276770u

+ 0.0395289u

+ ··· − 0.767568u + 0.541051





1.10016u

− 1.08053u

+ ··· − 183.142u + 40.3248

0.276770u

+ 0.0395289u

+ ··· − 0.767568u + 0.541051





−0.483130u

− 1.09918u

+ ··· − 102.939u + 26.7972

0.581937u

+ 0.395648u

+ ··· − 24.3369u − 0.367973





1.22082u

− 0.989380u

+ ··· − 182.255u + 40.3858

−0.00126625u

− 0.0204342u

+ ··· + 7.01822u + 0.813889





−u





1.84485u

− 1.31590u

+ ··· − 229.979u + 52.0102

−0.472356u

− 0.328224u

+ ··· + 6.26065u + 0.900727





−1.94402u

+ 0.476904u

+ ··· + 139.733u − 20.1503

0.316358u

− 0.0242382u

+ ··· + 0.806174u − 0.303933



(ii) Obstruction class = −1

(iii) Cusp Shapes = 1.27874u

+ 0.721176u

+ ··· − 64.5120u − 5.58630

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 9u

+ ··· − 108u + 61

, c

− 2u

+ ··· + 5154u − 773

− u

+ ··· + 23u − 43

, c

− u

+ ··· + 102u + 1

, c

− u

+ ··· + 32u + 1

+ 2u

+ ··· + 1624u − 1291

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 33y

+ ··· + 229434y −3721

, c

− 40y

+ ··· + 18677570y −597529

+ 31y

+ ··· − 87965y −1849

, c

+ 59y

+ ··· + 10138y −1

, c

− 53y

+ ··· + 1298y −1

− 32y

+ ··· + 37592492y −1666681

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.264830 + 0.931382I

a = −0.880909 + 0.866071I

b = −0.36110 − 1.47905I

3.66563 − 9.89323I 7.43337 + 6.27116I

u = −0.264830 − 0.931382I

a = −0.880909 − 0.866071I

b = −0.36110 + 1.47905I

3.66563 + 9.89323I 7.43337 − 6.27116I

u = 0.119168 + 0.889846I

a = −0.474592 − 0.195483I

b = −0.924980 + 0.347695I

−2.19237 + 5.25619I 4.23819 − 5.61197I

u = 0.119168 − 0.889846I

a = −0.474592 + 0.195483I

b = −0.924980 − 0.347695I

−2.19237 − 5.25619I 4.23819 + 5.61197I

u = −0.056257 + 0.894737I

a = 0.654957 − 0.276427I

b = 0.165353 + 1.327120I

0.33927 − 2.65716I 7.07647 + 3.01945I

u = −0.056257 − 0.894737I

a = 0.654957 + 0.276427I

b = 0.165353 − 1.327120I

0.33927 + 2.65716I 7.07647 − 3.01945I

u = 1.110480 + 0.149176I

a = −0.444606 + 1.134310I

b = −0.394307 − 0.923884I

1.42201 + 0.91602I 0

u = 1.110480 − 0.149176I

a = −0.444606 − 1.134310I

b = −0.394307 + 0.923884I

1.42201 − 0.91602I 0

u = 0.876618

a = −0.237869

b = 0.547477

1.47441 6.10400

u = −0.946025 + 0.638857I

a = −0.59515 + 1.28359I

b = 0.31286 − 1.38423I

5.77333 + 4.51012I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.946025 − 0.638857I

a = −0.59515 − 1.28359I

b = 0.31286 + 1.38423I

5.77333 − 4.51012I 0

u = −1.140520 + 0.188136I

a = 0.22857 − 1.65457I

b = 0.284860 + 0.755221I

3.89321 − 2.91811I 0

u = −1.140520 − 0.188136I

a = 0.22857 + 1.65457I

b = 0.284860 − 0.755221I

3.89321 + 2.91811I 0

u = −0.102126 + 0.801805I

a = 0.688121 − 0.400215I

b = 0.498536 − 0.055398I

−4.03916 + 0.26803I −0.184983 + 0.165110I

u = −0.102126 − 0.801805I

a = 0.688121 + 0.400215I

b = 0.498536 + 0.055398I

−4.03916 − 0.26803I −0.184983 − 0.165110I

u = 0.373831 + 0.712271I

a = 1.14505 + 1.41925I

b = 0.142122 − 1.261840I

−0.31798 + 2.01882I 8.09002 − 3.66839I

u = 0.373831 − 0.712271I

a = 1.14505 − 1.41925I

b = 0.142122 + 1.261840I

−0.31798 − 2.01882I 8.09002 + 3.66839I

u = 1.115350 + 0.452791I

a = −0.361726 + 0.339593I

b = 0.824800 + 0.143591I

0.891108 − 0.463329I 0

u = 1.115350 − 0.452791I

a = −0.361726 − 0.339593I

b = 0.824800 − 0.143591I

0.891108 + 0.463329I 0

u = −1.22285

a = 2.11329

b = −0.00993937

6.34821 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.069536 + 0.754894I

a = −0.723962 − 0.583814I

b = −0.659233 + 0.942112I

−0.414783 + 0.267178I 7.48415 + 0.42381I

u = 0.069536 − 0.754894I

a = −0.723962 + 0.583814I

b = −0.659233 − 0.942112I

−0.414783 − 0.267178I 7.48415 − 0.42381I

u = 1.246900 + 0.128101I

a = 0.84306 + 3.72917I

b = 0.08010 − 1.59038I

11.78010 + 4.24713I 0

u = 1.246900 − 0.128101I

a = 0.84306 − 3.72917I

b = 0.08010 + 1.59038I

11.78010 − 4.24713I 0

u = −1.201700 + 0.358369I

a = −0.431364 + 0.406062I

b = −0.609338 − 0.225740I

−0.66555 − 4.45229I 0

u = −1.201700 − 0.358369I

a = −0.431364 − 0.406062I

b = −0.609338 + 0.225740I

−0.66555 + 4.45229I 0

u = 1.25489

a = −0.0869145

b = −1.08085

6.69122 0

u = 1.244200 + 0.194794I

a = 2.26800 + 1.51808I

b = −0.014499 − 1.386050I

11.09980 − 0.10055I 0

u = 1.244200 − 0.194794I

a = 2.26800 − 1.51808I

b = −0.014499 + 1.386050I

11.09980 + 0.10055I 0

u = 1.238570 + 0.325666I

a = −0.680385 − 0.614714I

b = 0.919436 + 0.808126I

3.20240 + 3.63807I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.238570 − 0.325666I

a = −0.680385 + 0.614714I

b = 0.919436 − 0.808126I

3.20240 − 3.63807I 0

u = −1.197820 + 0.461395I

a = 0.413885 − 1.277320I

b = −0.062854 + 1.223650I

3.87163 − 2.16113I 0

u = −1.197820 − 0.461395I

a = 0.413885 + 1.277320I

b = −0.062854 − 1.223650I

3.87163 + 2.16113I 0

u = −1.278360 + 0.133753I

a = −0.40499 + 2.53862I

b = 0.15595 − 1.70029I

12.17270 + 0.50014I 0

u = −1.278360 − 0.133753I

a = −0.40499 − 2.53862I

b = 0.15595 + 1.70029I

12.17270 − 0.50014I 0

u = −1.280870 + 0.190846I

a = −0.94846 + 1.39858I

b = −0.41025 − 1.44460I

11.52880 − 5.38344I 0

u = −1.280870 − 0.190846I

a = −0.94846 − 1.39858I

b = −0.41025 + 1.44460I

11.52880 + 5.38344I 0

u = 1.310030 + 0.412002I

a = −1.39880 − 1.65413I

b = −0.20326 + 1.40973I

4.59729 + 7.32898I 0

u = 1.310030 − 0.412002I

a = −1.39880 + 1.65413I

b = −0.20326 − 1.40973I

4.59729 − 7.32898I 0

u = −1.351480 + 0.338312I

a = 0.63432 − 2.00827I

b = 0.466718 + 1.200170I

4.10202 − 4.20256I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.351480 − 0.338312I

a = 0.63432 + 2.00827I

b = 0.466718 − 1.200170I

4.10202 + 4.20256I 0

u = −1.350240 + 0.403220I

a = −0.077062 − 1.105780I

b = 0.962009 + 0.506118I

2.41229 − 9.89482I 0

u = −1.350240 − 0.403220I

a = −0.077062 + 1.105780I

b = 0.962009 − 0.506118I

2.41229 + 9.89482I 0

u = 1.364290 + 0.355675I

a = −0.206900 − 0.650879I

b = −0.400650 + 0.135843I

0.60420 + 3.90700I 0

u = 1.364290 − 0.355675I

a = −0.206900 + 0.650879I

b = −0.400650 − 0.135843I

0.60420 − 3.90700I 0

u = 0.039755 + 0.542419I

a = −0.31991 − 1.70017I

b = 0.203089 − 1.373340I

7.42461 + 2.75741I 6.63280 − 3.03516I

u = 0.039755 − 0.542419I

a = −0.31991 + 1.70017I

b = 0.203089 + 1.373340I

7.42461 − 2.75741I 6.63280 + 3.03516I

u = 1.43665 + 0.39904I

a = 1.11035 + 2.24747I

b = 0.35346 − 1.55119I

9.0502 + 14.6852I 0

u = 1.43665 − 0.39904I

a = 1.11035 − 2.24747I

b = 0.35346 + 1.55119I

9.0502 − 14.6852I 0

u = −1.48426 + 0.30904I

a = −1.02295 + 2.49547I

b = −0.143027 − 1.403930I

5.68590 − 5.85795I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.48426 − 0.30904I

a = −1.02295 − 2.49547I

b = −0.143027 + 1.403930I

5.68590 + 5.85795I 0

u = 0.037620 + 0.395735I

a = −1.287690 + 0.574122I

b = −0.12095 − 1.59031I

8.09559 − 2.39337I 3.23244 + 2.80367I

u = 0.037620 − 0.395735I

a = −1.287690 − 0.574122I

b = −0.12095 + 1.59031I

8.09559 + 2.39337I 3.23244 − 2.80367I

u = −1.63857

a = 0.548716

b = −0.409341

10.4567 0

u = 0.152119 + 0.317487I

a = −0.986059 − 0.348852I

b = −0.207133 + 0.562199I

0.300017 + 0.906434I 6.10890 − 7.39998I

u = 0.152119 − 0.317487I

a = −0.986059 + 0.348852I

b = −0.207133 − 0.562199I

0.300017 − 0.906434I 6.10890 + 7.39998I

u = 1.67470 + 0.08059I

a = 0.33916 + 2.32988I

b = −0.161751 − 1.374090I

15.0554 − 2.0908I 0

u = 1.67470 − 0.08059I

a = 0.33916 − 2.32988I

b = −0.161751 + 1.374090I

15.0554 + 2.0908I 0

u = −0.0275139

a = 45.5029

b = 0.560752

2.83333 −3.70810

II.

= h2u

−u

+· · ·+b+2, −2u

+2u

+· · ·+a+1, u

−9u

+· · ·+2u+1i

(i) Arc colorings











−u





−u

+ u





−u

+ 1

− 2u





− 2u

+ ··· + u − 1

−2u

+ u

+ ··· + 18u

− 2





−u

+ u

+ ··· + u − 3

−2u

+ u

+ ··· + 18u

− 2





− 2u

+ ··· − 16u

+ 3

− u

+ ··· − 10u

+ 3u





− u

+ ··· + 2u

− 3

−2u

+ u

+ ··· + 16u

− 2





−u





− 3u

+ ··· − 11u + 2

− 2u

+ ··· + 4u + 3





−3u

+ 2u

+ ··· + 42u

− 4

−u

+ 7u

− 18u

+ u

+ 19u

− 4u

− 3u

+ 5u

− 6u

− 3u + 2



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

− 2u

+ 16u

+ 15u

− 49u

− 41u

+ 70u

+ 45u

−

38u

− 5u

− 10u

− 22u

+ 10u

+ 5u + 15

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

− 2u

+ ··· + 6u + 1

− 3u

+ ··· + 2u

+ 1

+ u

+ ··· + u + 1

, c

+ 9u

+ ··· − 2u + 1

+ 3u

+ ··· − 2u

− 1

, c

− 9u

+ ··· + 2u − 1

+ u

+ ··· + u

+ 1

+ 9u

+ ··· − 2u − 1

, c

− 9u

+ ··· + 2u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 2y

+ ··· + 40y −1

, c

− 13y

+ ··· − 4y −1

+ 2y

+ ··· + 9y −1

, c

+ 18y

+ ··· + 12y −1

, c

− 18y

+ ··· + 16y −1

− 9y

+ ··· − 2y −1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.19201

a = −1.00785

b = −0.669803

5.66959 5.09880

u = −1.238320 + 0.078062I

a = −1.29573 + 2.90295I

b = −0.15885 − 1.58766I

11.83090 − 3.16023I 13.91924 + 0.52022I

u = −1.238320 − 0.078062I

a = −1.29573 − 2.90295I

b = −0.15885 + 1.58766I

11.83090 + 3.16023I 13.91924 − 0.52022I

u = 0.151779 + 0.741588I

a = −1.040030 − 0.584316I

b = −0.260278 + 0.958370I

−1.79394 + 1.02194I 2.84820 − 1.54812I

u = 0.151779 − 0.741588I

a = −1.040030 + 0.584316I

b = −0.260278 − 0.958370I

−1.79394 − 1.02194I 2.84820 + 1.54812I

u = 1.237890 + 0.308571I

a = −0.061952 − 0.614896I

b = 0.371777 + 0.708479I

1.57563 + 2.68429I 8.08777 − 2.30509I

u = 1.237890 − 0.308571I

a = −0.061952 + 0.614896I

b = 0.371777 − 0.708479I

1.57563 − 2.68429I 8.08777 + 2.30509I

u = −1.40336 + 0.36290I

a = 0.87716 − 1.84733I

b = 0.265089 + 1.156520I

3.20409 − 5.09393I 7.73695 + 4.78673I

u = −1.40336 − 0.36290I

a = 0.87716 + 1.84733I

b = 0.265089 − 1.156520I

3.20409 + 5.09393I 7.73695 − 4.78673I

u = 0.458300

a = −2.74392

b = 0.467982

3.24621 16.6550

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.58675 + 0.04787I

a = 0.53316 + 2.42451I

b = −0.12509 − 1.45929I

15.8645 − 1.5465I 16.0962 − 0.3491I

u = 1.58675 − 0.04787I

a = 0.53316 − 2.42451I

b = −0.12509 + 1.45929I

15.8645 + 1.5465I 16.0962 + 0.3491I

u = −1.60528

a = 0.693477

b = −0.282393

10.6979 25.1980

u = −0.357259 + 0.149534I

a = −2.48346 + 0.24716I

b = 0.14946 − 1.51822I

8.86003 + 2.31551I 14.8358 − 1.2107I

u = −0.357259 − 0.149534I

a = −2.48346 − 0.24716I

b = 0.14946 + 1.51822I

8.86003 − 2.31551I 14.8358 + 1.2107I

III. u-Polynomials

Crossings u-Polynomials at each crossing

− 2u

+ ··· + 6u + 1)(u

− 9u

+ ··· − 108u + 61)

− 3u

+ ··· + 2u

+ 1)(u

− 2u

+ ··· + 5154u − 773)

+ u

+ ··· + u + 1)(u

− u

+ ··· + 23u − 43)

, c

+ 9u

+ ··· − 2u + 1)(u

− u

+ ··· + 102u + 1)

+ 3u

+ ··· − 2u

− 1)(u

− 2u

+ ··· + 5154u − 773)

, c

− 9u

+ ··· + 2u − 1)(u

− u

+ ··· + 32u + 1)

+ u

+ ··· + u

+ 1)(u

+ 2u

+ ··· + 1624u − 1291)

+ 9u

+ ··· − 2u − 1)(u

− u

+ ··· + 102u + 1)

, c

− 9u

+ ··· + 2u + 1)(u

− u

+ ··· + 32u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

− 2y

+ ··· + 40y −1)(y

− 33y

+ ··· + 229434y −3721)

, c

− 13y

+ ··· − 4y −1)

· (y

− 40y

+ ··· + 18677570y −597529)

+ 2y

+ ··· + 9y −1)(y

+ 31y

+ ··· − 87965y −1849)

, c

+ 18y

+ ··· + 12y −1)(y

+ 59y

+ ··· + 10138y −1)

, c

− 18y

+ ··· + 16y −1)(y

− 53y

+ ··· + 1298y −1)

− 9y

+ ··· − 2y −1)

· (y

− 32y

+ ··· + 37592492y −1666681)