12a

0731

(K12a

0731

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

1,5

12 6 11 7 10 4 9 3 2 8

, c

Ideals for irreducible components

of X

par

= hu

− u

+ ··· − u

− 1i

* 1 irreducible components of dim

= 0, with total 52 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

= hu

− u

+ · · · − u

− 1i

(i) Arc colorings















+ u





+ 1

+ 2u





+ 2u

+ 3u

+ u





+ 3u

+ 1

+ 2u





+ 6u

+ 11u

+ 6u

+ u

+ 5u

+ 7u

+ 2u

+ u





−u

− 9u

− 30u

− 45u

− 30u

− 8u

+ 2u

+ 1

−u

− 8u

− 23u

− 28u

− 14u

− 4u

+ u





−u

− 12u

+ ··· + 11u

+ 2u

−u

− 11u

+ ··· + 3u

+ u





+ 23u

+ ··· + 2u

+ 1

+ 22u

+ ··· + 6u

+ u





+ 13u

+ ··· − 15u

+ 1

+ 14u

+ ··· − 30u

− 10u



(ii) Obstruction class = −1

(iii) Cusp Shapes = 4u

− 4u

+ ··· − 12u − 6

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 19u

+ ··· − 2u + 1

, c

+ u

+ ··· − 2u − 1

, c

− u

+ ··· − 8u − 4

, c

− u

+ ··· − u

− 1

− 17u

+ ··· − 26192u + 2993

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 29y

+ ··· + 18y + 1

, c

− 19y

+ ··· + 2y + 1

, c

− 55y

+ ··· − 184y + 16

, c

+ 61y

+ ··· + 2y + 1

− 31y

+ ··· − 170476614y + 8958049

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.417129 + 0.833683I

−6.57030 − 3.29491I −10.38217 + 1.00924I

u = 0.417129 − 0.833683I

−6.57030 + 3.29491I −10.38217 − 1.00924I

u = 0.447855 + 0.817464I

−10.54530 + 3.62754I −13.7524 − 4.1082I

u = 0.447855 − 0.817464I

−10.54530 − 3.62754I −13.7524 + 4.1082I

u = 0.468982 + 0.795969I

−6.17965 + 10.49310I −9.45880 − 8.85692I

u = 0.468982 − 0.795969I

−6.17965 − 10.49310I −9.45880 + 8.85692I

u = −0.415985 + 0.814109I

−4.96278 − 2.01233I −8.04647 + 3.92304I

u = −0.415985 − 0.814109I

−4.96278 + 2.01233I −8.04647 − 3.92304I

u = −0.456551 + 0.790170I

−4.67136 − 5.01095I −7.40961 + 4.34724I

u = −0.456551 − 0.790170I

−4.67136 + 5.01095I −7.40961 − 4.34724I

u = −0.307728 + 0.673902I

−3.04997 − 2.38050I −13.2356 + 6.5396I

u = −0.307728 − 0.673902I

−3.04997 + 2.38050I −13.2356 − 6.5396I

u = −0.431177 + 0.595940I

1.33174 − 6.67291I −4.55025 + 10.19057I

u = −0.431177 − 0.595940I

1.33174 + 6.67291I −4.55025 − 10.19057I

u = −0.075469 + 0.725881I

−0.97753 + 2.21512I −11.08908 − 2.69956I

u = −0.075469 − 0.725881I

−0.97753 − 2.21512I −11.08908 + 2.69956I

u = 0.417591 + 0.557999I

1.94823 + 1.38800I −2.50449 − 4.64036I

u = 0.417591 − 0.557999I

1.94823 − 1.38800I −2.50449 + 4.64036I

u = 0.636854

−8.09348 −9.74010

u = 0.633274 + 0.038957I

−3.92657 − 6.79204I −5.72913 + 4.81858I

u = 0.633274 − 0.038957I

−3.92657 + 6.79204I −5.72913 − 4.81858I

u = −0.614460 + 0.031464I

−2.42291 + 1.41178I −3.50849 − 0.14454I

u = −0.614460 − 0.031464I

−2.42291 − 1.41178I −3.50849 + 0.14454I

u = 0.241452 + 0.491984I

−0.158403 + 0.970828I −3.16514 − 6.89693I

u = 0.241452 − 0.491984I

−0.158403 − 0.970828I −3.16514 + 6.89693I

u = 0.435224 + 0.311244I

2.64348 + 1.66592I 0.51705 − 3.90838I

u = 0.435224 − 0.311244I

2.64348 − 1.66592I 0.51705 + 3.90838I

u = −0.459005 + 0.259005I

2.28374 + 3.52243I −0.68639 − 3.07419I

u = −0.459005 − 0.259005I

2.28374 − 3.52243I −0.68639 + 3.07419I

u = 0.01062 + 1.50422I

−3.13178 + 2.70355I 0

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.01062 − 1.50422I

−3.13178 − 2.70355I 0

u = 0.09297 + 1.55850I

−5.18614 + 3.13538I 0

u = 0.09297 − 1.55850I

−5.18614 − 3.13538I 0

u = −0.10423 + 1.56695I

−5.96476 − 8.55636I 0

u = −0.10423 − 1.56695I

−5.96476 + 8.55636I 0

u = 0.04555 + 1.57078I

−7.31168 + 1.86434I 0

u = 0.04555 − 1.57078I

−7.31168 − 1.86434I 0

u = −0.07403 + 1.59817I

−10.82600 − 3.74121I 0

u = −0.07403 − 1.59817I

−10.82600 + 3.74121I 0

u = −0.02520 + 1.60559I

−8.95532 + 1.81146I 0

u = −0.02520 − 1.60559I

−8.95532 − 1.81146I 0

u = −0.386669

−1.22216 −7.16550

u = −0.13033 + 1.63602I

−12.9782 − 7.2412I 0

u = −0.13033 − 1.63602I

−12.9782 + 7.2412I 0

u = 0.13423 + 1.63834I

−14.5123 + 12.7892I 0

u = 0.13423 − 1.63834I

−14.5123 − 12.7892I 0

u = −0.11630 + 1.64091I

−13.39160 − 4.03746I 0

u = −0.11630 − 1.64091I

−13.39160 + 4.03746I 0

u = 0.12590 + 1.64441I

−18.9946 + 5.8156I 0

u = 0.12590 − 1.64441I

−18.9946 − 5.8156I 0

u = 0.11458 + 1.64704I

−15.1010 − 1.2710I 0

u = 0.11458 − 1.64704I

−15.1010 + 1.2710I 0

II. u-Polynomials

Crossings u-Polynomials at each crossing

, c

+ 19u

+ ··· − 2u + 1

, c

+ u

+ ··· − 2u − 1

, c

− u

+ ··· − 8u − 4

, c

− u

+ ··· − u

− 1

− 17u

+ ··· − 26192u + 2993

III. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

+ 29y

+ ··· + 18y + 1

, c

− 19y

+ ··· + 2y + 1

, c

− 55y

+ ··· − 184y + 16

, c

+ 61y

+ ··· + 2y + 1

− 31y

+ ··· − 170476614y + 8958049