12n

0275

(K12n

0275

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

7,11 3,8

4 12 2 5 6 10 1 9

, c

Ideals for irreducible components

of X

par

= h−28980693473u

− 23872677880u

+ ··· + 214600733306b − 182162526839,

− 563591323347u

+ 759883303462u

+ ··· + 214600733306a − 449269653153,

− u

+ ··· + 3u + 1i

= h−u

a − 2u

− u

a − u

− au − u

+ 2b − 2u − 1,

a + u

a + 3u

+ u

a + u

+ a

+ u

+ 2a + 6u + 1, u

+ u

+ 2u

+ 1i

* 2 irreducible components of dim

= 0, with total 42 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−2.90×10

−2.39×10

+· · ·+2.15×10

b−1.82×10

, −5.64×

+7.60×10

+· · ·+2.15×10

a−4.49×10

, u

−u

+· · ·+3u+1i

(i) Arc colorings











2.62623u

− 3.54092u

+ ··· + 12.0914u + 2.09351

0.135045u

+ 0.111242u

+ ··· + 0.745217u + 0.848844









2.84774u

− 3.81213u

+ ··· + 12.7188u + 2.02767

−0.0194466u

+ 0.399642u

+ ··· + 0.672837u + 0.898553





−u





1.18157u

− 2.05139u

+ ··· + 1.94907u + 0.834389

−0.135455u

− 0.0144421u

+ ··· − 1.18940u − 1.25661





1.09680u

− 0.576198u

+ ··· + 6.48933u + 4.12117

−0.313730u

+ 0.598271u

+ ··· − 1.65860u − 0.520599





−0.947509u

+ 0.761849u

+ ··· − 8.67784u − 0.427524

−0.0270939u

− 0.328296u

+ ··· + 0.399856u − 1.39992





−u

+ u





−u

− u

+ u





1.54614u

− 2.33858u

+ ··· + 6.58387u + 1.61709

−0.255461u

+ 0.288919u

+ ··· − 1.75987u − 0.674753



(ii) Obstruction class = −1

(iii) Cusp Shapes

= −

116649735226

107300366653

148588842691

107300366653

+ ··· −

788548417729

107300366653

u +

226312667156

107300366653

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 47u

+ ··· + 191u + 1

, c

− 5u

+ ··· + 11u + 1

− u

+ ··· + 3u + 1

, c

− u

+ ··· − 95u + 25

+ 3u

+ ··· + 861u + 649

, c

+ u

+ ··· − 3u + 1

+ 3u

+ ··· − 401099u + 75377

, c

− 5u

+ ··· − 9u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

− 121y

+ ··· + 51727y + 1

, c

+ 47y

+ ··· + 191y + 1

− 5y

+ ··· + 11y + 1

, c

+ y

+ ··· − 3175y + 625

+ 33y

+ ··· + 2246675y + 421201

, c

+ 5y

+ ··· + 9y + 1

+ 89y

+ ··· + 64272198739y + 5681692129

, c

+ 45y

+ ··· + 81y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.194178 + 0.861301I

a = −1.021630 − 0.362095I

b = 0.263501 + 0.422304I

0.69640 − 1.72034I 1.49037 + 4.91074I

u = 0.194178 − 0.861301I

a = −1.021630 + 0.362095I

b = 0.263501 − 0.422304I

0.69640 + 1.72034I 1.49037 − 4.91074I

u = −0.938260 + 0.627104I

a = −0.499497 + 0.926953I

b = 1.52482 + 0.04891I

−6.16879 − 1.21008I −2.96584 + 0.88236I

u = −0.938260 − 0.627104I

a = −0.499497 − 0.926953I

b = 1.52482 − 0.04891I

−6.16879 + 1.21008I −2.96584 − 0.88236I

u = −0.423018 + 0.756823I

a = 1.89502 − 0.68357I

b = −0.189341 − 0.657186I

2.22190 + 4.31885I 5.85919 − 8.87008I

u = −0.423018 − 0.756823I

a = 1.89502 + 0.68357I

b = −0.189341 + 0.657186I

2.22190 − 4.31885I 5.85919 + 8.87008I

u = −0.149957 + 0.853854I

a = 0.90254 − 1.96897I

b = −0.496999 + 0.995959I

3.54151 − 0.51606I 10.41425 − 1.32912I

u = −0.149957 − 0.853854I

a = 0.90254 + 1.96897I

b = −0.496999 − 0.995959I

3.54151 + 0.51606I 10.41425 + 1.32912I

u = 0.765379 + 0.893759I

a = 0.159784 + 1.137040I

b = −1.46119 − 0.25226I

−1.42212 − 2.89990I 2.16966 + 2.50499I

u = 0.765379 − 0.893759I

a = 0.159784 − 1.137040I

b = −1.46119 + 0.25226I

−1.42212 + 2.89990I 2.16966 − 2.50499I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.882441 + 0.785868I

a = 0.28444 + 1.44916I

b = −0.835514 + 0.010950I

−4.43991 − 4.87528I −1.40537 + 4.69553I

u = 0.882441 − 0.785868I

a = 0.28444 − 1.44916I

b = −0.835514 − 0.010950I

−4.43991 + 4.87528I −1.40537 − 4.69553I

u = 0.633178 + 0.448369I

a = −0.204887 − 0.469950I

b = 0.234278 + 0.488949I

−0.96186 − 1.37588I −2.99068 + 3.21474I

u = 0.633178 − 0.448369I

a = −0.204887 + 0.469950I

b = 0.234278 − 0.488949I

−0.96186 + 1.37588I −2.99068 − 3.21474I

u = 0.736913 + 0.984710I

a = 0.273772 + 0.001505I

b = −1.135180 − 0.258754I

−3.71029 − 1.15996I −1.23536 + 0.81989I

u = 0.736913 − 0.984710I

a = 0.273772 − 0.001505I

b = −1.135180 + 0.258754I

−3.71029 + 1.15996I −1.23536 − 0.81989I

u = −0.647311 + 1.068760I

a = −0.99194 + 1.30440I

b = 1.71967 − 0.46050I

−4.58052 + 7.07309I −0.56937 − 6.52418I

u = −0.647311 − 1.068760I

a = −0.99194 − 1.30440I

b = 1.71967 + 0.46050I

−4.58052 − 7.07309I −0.56937 + 6.52418I

u = 1.022110 + 0.895164I

a = −0.555012 − 0.809078I

b = 2.44769 − 0.22730I

−16.7193 + 4.9302I −0.87414 − 1.79412I

u = 1.022110 − 0.895164I

a = −0.555012 + 0.809078I

b = 2.44769 + 0.22730I

−16.7193 − 4.9302I −0.87414 + 1.79412I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.919420 + 1.045210I

a = −0.57144 − 1.81078I

b = 2.49834 + 0.28520I

−16.2013 − 12.0291I −0.14700 + 6.09920I

u = 0.919420 − 1.045210I

a = −0.57144 + 1.81078I

b = 2.49834 − 0.28520I

−16.2013 + 12.0291I −0.14700 − 6.09920I

u = −1.011130 + 0.959398I

a = 0.19777 − 1.52281I

b = −1.98241 + 0.56395I

−17.2554 + 2.6942I −1.35658 − 2.19435I

u = −1.011130 − 0.959398I

a = 0.19777 + 1.52281I

b = −1.98241 − 0.56395I

−17.2554 − 2.6942I −1.35658 + 2.19435I

u = −0.968194 + 1.019150I

a = 0.859717 − 0.564264I

b = −2.08559 − 0.52091I

−17.0465 + 4.5510I −1.15103 − 1.97489I

u = −0.968194 − 1.019150I

a = 0.859717 + 0.564264I

b = −2.08559 + 0.52091I

−17.0465 − 4.5510I −1.15103 + 1.97489I

u = −0.213905 + 0.490541I

a = −1.65502 + 0.37124I

b = −0.548040 + 0.708878I

1.59074 − 1.61799I 1.307109 − 0.397413I

u = −0.213905 − 0.490541I

a = −1.65502 − 0.37124I

b = −0.548040 − 0.708878I

1.59074 + 1.61799I 1.307109 + 0.397413I

u = −0.301843 + 0.271696I

a = 2.42638 + 1.75700I

b = −0.454022 − 0.958650I

1.49855 + 2.22404I −0.54522 − 4.55103I

u = −0.301843 − 0.271696I

a = 2.42638 − 1.75700I

b = −0.454022 + 0.958650I

1.49855 − 2.22404I −0.54522 + 4.55103I

II.

= h−u

a − 2u

+ · · · + 2b − 1, u

a + 3u

+ · · · + 2a + 1, u

+ u

+ 2u

+ 1i

(i) Arc colorings











a + u

+ ··· + u +









a + u

+ ··· + a +

a +

+ ··· + u





−u





−2u

−

+ ··· +

a − 2

a +

+ ··· + 2u + 1





+ u

−u

− u





a +

+ ··· +

a +

a −

+ ··· +

a −





−u

+ u





−u

− u

+ u





a +

+ ··· +

a −

−u

a −

+ ··· +

a − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −2u

a − 2u

a + 4u

− 2u

a + 2u

− 2au + 2u

+ 10

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1)

+ u + 1)

− u

+ 1)

, c

+ 1)

− 6u

+ ··· + 2u + 1

, c

+ u

+ 2u

+ 1)

+ 2u

+ ··· + 4u + 1

+ u

+ 2u + 1)

− u

+ 2u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1)

− y + 1)

, c

(y + 1)

+ 12y

+ ··· + 6y + 1

, c

+ y

+ 2y + 1)

− 12y

+ ··· − 6y + 1

, c

+ 3y

+ 2y −1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.744862 + 0.877439I

a = 0.850078 − 0.184922I

b = −0.807141 + 0.650946I

−1.37919 − 0.79824I 2.49024 − 0.48465I

u = 0.744862 + 0.877439I

a = −0.227778 + 1.317500I

b = −0.807141 − 1.081110I

−1.37919 − 4.85801I 2.49024 + 6.44355I

u = 0.744862 − 0.877439I

a = 0.850078 + 0.184922I

b = −0.807141 − 0.650946I

−1.37919 + 0.79824I 2.49024 + 0.48465I

u = 0.744862 − 0.877439I

a = −0.227778 − 1.317500I

b = −0.807141 + 1.081110I

−1.37919 + 4.85801I 2.49024 − 6.44355I

u = −0.744862 + 0.877439I

a = 0.317499 + 0.772222I

b = 1.80714 − 1.08111I

−1.37919 + 0.79824I 2.49024 + 0.48465I

u = −0.744862 + 0.877439I

a = −1.18492 + 1.85008I

b = 1.80714 + 0.65095I

−1.37919 + 4.85801I 2.49024 − 6.44355I

u = −0.744862 − 0.877439I

a = 0.317499 − 0.772222I

b = 1.80714 + 1.08111I

−1.37919 − 0.79824I 2.49024 − 0.48465I

u = −0.744862 − 0.877439I

a = −1.18492 − 1.85008I

b = 1.80714 − 0.65095I

−1.37919 − 4.85801I 2.49024 + 6.44355I

u = 0.754878I

a = 0.64233 − 1.64233I

b = 0.50000 + 1.43587I

2.75839 + 2.02988I 9.01951 − 3.46410I

u = 0.754878I

a = −2.39721 + 1.39721I

b = 0.500000 − 0.296185I

2.75839 − 2.02988I 9.01951 + 3.46410I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = − 0.754878I

a = 0.64233 + 1.64233I

b = 0.50000 − 1.43587I

2.75839 − 2.02988I 9.01951 + 3.46410I

u = − 0.754878I

a = −2.39721 − 1.39721I

b = 0.500000 + 0.296185I

2.75839 + 2.02988I 9.01951 − 3.46410I

III. u-Polynomials

Crossings u-Polynomials at each crossing

((u

− u + 1)

)(u

+ 47u

+ ··· + 191u + 1)

((u

+ u + 1)

)(u

− 5u

+ ··· + 11u + 1)

((u

− u

+ 1)

)(u

− u

+ ··· + 3u + 1)

((u

− u + 1)

)(u

− 5u

+ ··· + 11u + 1)

, c

((u

+ 1)

)(u

− u

+ ··· − 95u + 25)

− 6u

+ ··· + 2u + 1)(u

+ 3u

+ ··· + 861u + 649)

, c

((u

+ u

+ 2u

+ 1)

)(u

+ u

+ ··· − 3u + 1)

+ 2u

+ ··· + 4u + 1)(u

+ 3u

+ ··· − 401099u + 75377)

((u

+ u

+ 2u + 1)

)(u

− 5u

+ ··· − 9u + 1)

((u

− u

+ 2u − 1)

)(u

− 5u

+ ··· − 9u + 1)

IV. Riley Polynomials

Crossings Riley Polynomials at each crossing

((y

+ y + 1)

)(y

− 121y

+ ··· + 51727y + 1)

, c

((y

+ y + 1)

)(y

+ 47y

+ ··· + 191y + 1)

((y

− y + 1)

)(y

− 5y

+ ··· + 11y + 1)

, c

((y + 1)

)(y

+ y

+ ··· − 3175y + 625)

+ 12y

+ ··· + 6y + 1)(y

+ 33y

+ ··· + 2246675y + 421201)

, c

((y

+ y

+ 2y + 1)

)(y

+ 5y

+ ··· + 9y + 1)

− 12y

+ ··· − 6y + 1)

· (y

+ 89y

+ ··· + 64272198739y + 5681692129)

, c

((y

+ 3y

+ 2y −1)

)(y

+ 45y

+ ··· + 81y + 1)