12a

0029

(K12a

0029

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

4,9 2,5

6,11

10 1 8 7 12

, c

Ideals for irreducible components

of X

par

= h4.48200 × 10

− 9.22155 × 10

+ ··· + 1.04756 × 10

d − 1.67459 × 10

7.62250 × 10

− 1.89258 × 10

+ ··· + 2.09512 × 10

c − 3.36115 × 10

1.37141 × 10

− 2.04563 × 10

+ ··· + 1.04756 × 10

b − 1.27647 × 10

7.65358 × 10

− 2.24209 × 10

+ ··· + 1.04756 × 10

a − 1.33042 × 10

, u

− 3u

+ ··· − 32u + 32i

= h−5.05017 × 10

+ 2.57220 × 10

+ ··· + 1.77366 × 10

c + 1.40518 × 10

− 1.48141 × 10

+ 8.78585 × 10

+ ··· + 1.69449 × 10

c − 1.02888 × 10

− 3.80860 × 10

− 1.22578 × 10

+ ··· + 3.70123 × 10

b + 1.73663 × 10

− 9.01587 × 10

− 1.40080 × 10

+ ··· + 7.40247 × 10

a + 2.56553 × 10

, u

+ u

+ ··· + 4u − 4i

= ha, d, c − v, b − v, v

− v + 1i

= ha, d − v + 1, −av + c + 1, b − v, v

− v + 1i

= hc, d − 1, b, a − 1, v + 1i

= ha, db + da − cb − d + b − 1, a

d − cba − da + cb + ba + d − c − a + 1, dv + 1, cv − ba − bv + b + a,

− b + 1i

* 5 irreducible components of dim

= 0, with total 127 representations.

* 1 irreducible components of dim

= 1

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

= h4.48 × 10

− 9.22 × 10

+ · · · + 1.05 × 10

d − 1.67 ×

, 7.62 × 10

− 1.89 × 10

+ · · · + 2.10 × 10

c − 3.36 × 10

, 1.37 ×

− 2.05 × 10

+ · · · + 1.05 × 10

b − 1.28 × 10

, 7.65 × 10

−

2.24 × 10

+ · · · + 1.05 × 10

a − 1.33 × 10

, u

− 3u

+ · · · − 32u + 32i

(i) Arc colorings











−0.0730608u

+ 0.214029u

+ ··· − 11.1865u + 0.127001

−0.0130915u

+ 0.0195275u

+ ··· + 0.982266u + 1.21851









−0.107506u

+ 0.286640u

+ ··· − 12.3773u + 1.18060

−0.0329822u

+ 0.0562768u

+ ··· + 1.10132u + 2.20169





−0.0337179u

+ 0.143074u

+ ··· − 8.46741u + 4.71002

0.0470900u

− 0.103838u

+ ··· + 1.16123u − 2.01452





−0.0363821u

+ 0.0903327u

+ ··· − 1.88200u + 1.60427

−0.0427850u

+ 0.0880286u

+ ··· + 0.686956u + 1.59856





−0.0168951u

+ 0.0465535u

+ ··· − 1.39848u + 0.915857

−0.0232980u

+ 0.0442495u

+ ··· + 1.17047u + 0.910145





−0.0808079u

+ 0.246912u

+ ··· − 9.62863u + 6.72455

−0.0570466u

+ 0.0968746u

+ ··· + 1.56827u + 1.87088









0.00655998u

− 0.0259377u

+ ··· + 2.00677u − 0.607746

−0.0298221u

+ 0.0643950u

+ ··· + 0.124764u + 0.996524





−0.0639128u

+ 0.200359u

+ ··· − 8.23015u + 5.80869

−0.0337486u

+ 0.0526252u

+ ··· + 1.39779u + 0.960739



(ii) Obstruction class = −1

(iii) Cusp Shapes = 0.247381u

− 0.445802u

+ ··· − 4.44172u − 0.790830

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 21u

+ ··· − 40u + 16

, c

+ u

+ ··· − 4u + 4

− u

+ ··· − 2596u + 1252

, c

− 3u

+ ··· − 32u + 32

, c

+ 5u

+ ··· + 2u + 1

, c

− 21u

+ ··· + 4u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 9y

+ ··· − 5664y + 256

, c

+ 21y

+ ··· − 40y + 16

− 3y

+ ··· − 20408552y + 1567504

, c

− 15y

+ ··· + 4096y + 1024

, c

− 21y

+ ··· + 4y + 1

, c

+ 19y

+ ··· − 72y + 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.248116 + 0.949341I

a = 0.659883 − 0.533852I

b = 0.16697 + 1.82340I

c = −0.570373 + 0.029986I

d = −0.088362 + 0.621385I

−1.66114 + 2.12776I −0.422256 − 0.234121I

u = 0.248116 − 0.949341I

a = 0.659883 + 0.533852I

b = 0.16697 − 1.82340I

c = −0.570373 − 0.029986I

d = −0.088362 − 0.621385I

−1.66114 − 2.12776I −0.422256 + 0.234121I

u = −0.642875 + 0.814816I

a = 0.006254 + 1.275600I

b = 0.634122 + 0.252731I

c = −1.335160 − 0.293800I

d = −0.362590 + 0.315550I

5.93091 − 3.99675I 10.51051 + 4.44974I

u = −0.642875 − 0.814816I

a = 0.006254 − 1.275600I

b = 0.634122 − 0.252731I

c = −1.335160 + 0.293800I

d = −0.362590 − 0.315550I

5.93091 + 3.99675I 10.51051 − 4.44974I

u = −0.046642 + 1.050320I

a = 0.666501 + 0.584237I

b = −0.27294 − 1.79729I

c = −0.807442 − 0.110962I

d = −0.214208 + 0.539648I

−2.04690 − 4.94372I 0.16550 + 7.58166I

u = −0.046642 − 1.050320I

a = 0.666501 − 0.584237I

b = −0.27294 + 1.79729I

c = −0.807442 + 0.110962I

d = −0.214208 − 0.539648I

−2.04690 + 4.94372I 0.16550 − 7.58166I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.614432 + 0.696436I

a = −3.11307 − 1.54198I

b = 1.05080 − 1.50344I

c = 1.39259 − 0.38277I

d = 0.334763 + 0.277573I

4.70063 − 1.01560I 8.78023 + 1.30126I

u = 0.614432 − 0.696436I

a = −3.11307 + 1.54198I

b = 1.05080 + 1.50344I

c = 1.39259 + 0.38277I

d = 0.334763 − 0.277573I

4.70063 + 1.01560I 8.78023 − 1.30126I

u = 0.904459 + 0.035006I

a = 0.684510 + 0.349167I

b = 1.217210 − 0.498628I

c = 0.226719 − 0.709857I

d = 0.94895 − 1.25909I

0.23417 − 4.06154I 0.42563 + 7.90074I

u = 0.904459 − 0.035006I

a = 0.684510 − 0.349167I

b = 1.217210 + 0.498628I

c = 0.226719 + 0.709857I

d = 0.94895 + 1.25909I

0.23417 + 4.06154I 0.42563 − 7.90074I

u = 0.517103 + 1.038360I

a = 0.728606 + 0.786743I

b = −1.25298 − 0.96152I

c = 1.178790 − 0.188129I

d = 0.361203 + 0.412386I

0.12548 + 4.11136I 2.46017 − 3.87123I

u = 0.517103 − 1.038360I

a = 0.728606 − 0.786743I

b = −1.25298 + 0.96152I

c = 1.178790 + 0.188129I

d = 0.361203 − 0.412386I

0.12548 − 4.11136I 2.46017 + 3.87123I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.017678 + 0.820472I

a = 0.853788 + 0.005623I

b = −0.0664210 + 0.0072212I

c = 0.617736 − 0.298148I

d = 0.123361 + 0.470883I

0.79101 + 1.46703I 5.32252 − 4.75359I

u = 0.017678 − 0.820472I

a = 0.853788 − 0.005623I

b = −0.0664210 − 0.0072212I

c = 0.617736 + 0.298148I

d = 0.123361 − 0.470883I

0.79101 − 1.46703I 5.32252 + 4.75359I

u = 1.006520 + 0.624064I

a = 0.618102 − 0.412984I

b = 1.58573 + 1.52879I

c = 0.186343 − 1.252860I

d = 0.75459 − 2.11694I

3.52144 − 4.08819I 5.82465 + 4.54278I

u = 1.006520 − 0.624064I

a = 0.618102 + 0.412984I

b = 1.58573 − 1.52879I

c = 0.186343 + 1.252860I

d = 0.75459 + 2.11694I

3.52144 + 4.08819I 5.82465 − 4.54278I

u = −1.071740 + 0.508840I

a = 0.249412 + 0.451516I

b = −0.037567 + 0.421763I

c = 0.237093 + 0.582132I

d = −0.291926 + 1.082080I

−1.98761 + 2.55534I 0.98949 − 1.01939I

u = −1.071740 − 0.508840I

a = 0.249412 − 0.451516I

b = −0.037567 − 0.421763I

c = 0.237093 − 0.582132I

d = −0.291926 − 1.082080I

−1.98761 − 2.55534I 0.98949 + 1.01939I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.807683 + 0.082878I

a = 0.701991 − 0.351361I

b = 1.056930 + 0.488868I

c = −0.192599 + 0.514963I

d = −0.891839 + 0.948808I

0.274017 + 1.087600I −0.651009 + 0.594713I

u = −0.807683 − 0.082878I

a = 0.701991 + 0.351361I

b = 1.056930 − 0.488868I

c = −0.192599 − 0.514963I

d = −0.891839 − 0.948808I

0.274017 − 1.087600I −0.651009 − 0.594713I

u = −0.668777 + 1.013930I

a = 0.733154 − 0.148233I

b = 0.143797 − 0.527077I

c = −1.276030 − 0.170948I

d = −0.403997 + 0.376312I

4.90536 − 6.51831I 8.90536 + 4.64881I

u = −0.668777 − 1.013930I

a = 0.733154 + 0.148233I

b = 0.143797 + 0.527077I

c = −1.276030 + 0.170948I

d = −0.403997 − 0.376312I

4.90536 + 6.51831I 8.90536 − 4.64881I

u = −1.035500 + 0.682470I

a = 0.691378 − 0.235874I

b = 0.882817 − 0.508436I

c = −0.156215 − 1.277950I

d = −0.69298 − 2.14399I

4.70874 + 9.62616I 7.79470 − 8.99124I

u = −1.035500 − 0.682470I

a = 0.691378 + 0.235874I

b = 0.882817 + 0.508436I

c = −0.156215 + 1.277950I

d = −0.69298 + 2.14399I

4.70874 − 9.62616I 7.79470 + 8.99124I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.224990 + 0.226721I

a = 0.253462 − 0.169367I

b = −0.320531 − 0.225417I

c = 0.050461 − 0.989550I

d = 0.63809 − 1.66040I

−3.57586 − 5.30392I 1.93777 + 5.96454I

u = 1.224990 − 0.226721I

a = 0.253462 + 0.169367I

b = −0.320531 + 0.225417I

c = 0.050461 + 0.989550I

d = 0.63809 + 1.66040I

−3.57586 + 5.30392I 1.93777 − 5.96454I

u = 1.195740 + 0.364671I

a = 0.44005 + 1.75493I

b = −1.22042 + 1.50844I

c = −0.186101 + 0.688056I

d = 0.356273 + 1.213420I

−6.39735 + 0.44189I −4.43091 − 2.06201I

u = 1.195740 − 0.364671I

a = 0.44005 − 1.75493I

b = −1.22042 − 1.50844I

c = −0.186101 − 0.688056I

d = 0.356273 − 1.213420I

−6.39735 − 0.44189I −4.43091 + 2.06201I

u = 0.687704 + 1.079720I

a = 0.598930 − 0.485617I

b = 0.89116 + 2.33948I

c = 1.270960 − 0.132505I

d = 0.421173 + 0.392926I

2.74057 + 11.63170I 5.60201 − 8.64749I

u = 0.687704 − 1.079720I

a = 0.598930 + 0.485617I

b = 0.89116 − 2.33948I

c = 1.270960 + 0.132505I

d = 0.421173 − 0.392926I

2.74057 − 11.63170I 5.60201 + 8.64749I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.158970 + 0.578549I

a = −1.27784 − 1.84483I

b = 0.63049 − 2.44257I

c = −0.292580 + 0.618138I

d = 0.226552 + 1.126520I

−4.42926 − 7.47789I −1.74286 + 4.84208I

u = 1.158970 − 0.578549I

a = −1.27784 + 1.84483I

b = 0.63049 + 2.44257I

c = −0.292580 − 0.618138I

d = 0.226552 − 1.126520I

−4.42926 + 7.47789I −1.74286 − 4.84208I

u = −1.311140 + 0.102134I

a = 0.00268 − 1.92087I

b = −0.86720 − 2.10727I

c = 0.030662 − 0.940031I

d = −0.53344 − 1.57008I

−7.51022 + 1.50301I −3.10935 − 2.27720I

u = −1.311140 − 0.102134I

a = 0.00268 + 1.92087I

b = −0.86720 + 2.10727I

c = 0.030662 + 0.940031I

d = −0.53344 + 1.57008I

−7.51022 − 1.50301I −3.10935 + 2.27720I

u = −0.435796 + 0.485308I

a = 0.873003 − 0.355186I

b = 0.215705 + 0.325189I

c = 0.168435 + 0.132484I

d = −0.223442 + 0.550785I

−0.084212 + 1.381070I −0.30299 − 4.86269I

u = −0.435796 − 0.485308I

a = 0.873003 + 0.355186I

b = 0.215705 − 0.325189I

c = 0.168435 − 0.132484I

d = −0.223442 − 0.550785I

−0.084212 − 1.381070I −0.30299 + 4.86269I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.316840 + 0.304432I

a = −0.68441 + 1.94019I

b = −0.04666 + 2.56224I

c = −0.010549 − 1.050770I

d = −0.56280 − 1.73815I

−6.69471 + 9.89538I −1.12698 − 9.02462I

u = −1.316840 − 0.304432I

a = −0.68441 − 1.94019I

b = −0.04666 − 2.56224I

c = −0.010549 + 1.050770I

d = −0.56280 + 1.73815I

−6.69471 − 9.89538I −1.12698 + 9.02462I

u = −1.118430 + 0.781907I

a = 0.006550 + 0.558246I

b = 0.136959 + 0.741041I

c = −0.096143 − 1.306940I

d = −0.58055 − 2.15879I

3.44989 + 13.07100I 7.52581 − 7.90184I

u = −1.118430 − 0.781907I

a = 0.006550 − 0.558246I

b = 0.136959 − 0.741041I

c = −0.096143 + 1.306940I

d = −0.58055 + 2.15879I

3.44989 − 13.07100I 7.52581 + 7.90184I

u = 1.166960 + 0.709743I

a = 0.55758 + 1.32715I

b = −1.85153 + 0.87351I

c = 0.086648 − 1.266670I

d = 0.58757 − 2.09046I

−1.96462 − 10.42030I 0. + 7.01224I

u = 1.166960 − 0.709743I

a = 0.55758 − 1.32715I

b = −1.85153 − 0.87351I

c = 0.086648 + 1.266670I

d = 0.58757 + 2.09046I

−1.96462 + 10.42030I 0. − 7.01224I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.144720 + 0.813548I

a = −1.46199 − 1.44274I

b = 1.12386 − 2.52551I

c = 0.079457 − 1.315210I

d = 0.54947 − 2.16215I

1.2351 − 18.4885I 4.00000 + 11.60486I

u = 1.144720 − 0.813548I

a = −1.46199 + 1.44274I

b = 1.12386 + 2.52551I

c = 0.079457 + 1.315210I

d = 0.54947 + 2.16215I

1.2351 + 18.4885I 4.00000 − 11.60486I

u = 0.068034 + 0.485475I

a = −3.28852 − 7.48764I

b = 0.699694 + 0.686768I

c = 0.39729 − 1.46311I

d = 0.044140 + 0.259666I

2.91211 + 2.24138I 11.31463 − 3.80305I

u = 0.068034 − 0.485475I

a = −3.28852 + 7.48764I

b = 0.699694 − 0.686768I

c = 0.39729 + 1.46311I

d = 0.044140 − 0.259666I

2.91211 − 2.24138I 11.31463 + 3.80305I

II. I

= h−5.05 × 10

+ 2.57 × 10

+ · · · + 1.77 × 10

c + 1.41 ×

, −1.48×10

+8.79×10

+· · ·+1.69×10

c−1.03×10

, −3.81×

− 1.23 × 10

+ · · · + 3.70 × 10

b + 1.74 × 10

, −9.02 × 10

−

1.40 × 10

+ · · · + 7.40 × 10

a + 2.57 × 10

, u

+ u

+ · · · + 4u − 4i

(i) Arc colorings











1.21795u

+ 0.189235u

+ ··· + 8.79024u − 3.46578

1.02901u

+ 0.331181u

+ ··· + 9.83857u − 4.69204









1.53590u

+ 0.295833u

+ ··· + 9.64211u − 4.04294

1.20001u

+ 0.438425u

+ ··· + 11.9557u − 5.53741





0.904497u

− 0.262263u

+ ··· + 5.27517u − 2.04692

0.358591u

− 0.434315u

+ ··· + 1.07020u − 1.14792





0.272891cu

− 0.138991u

+ ··· − 0.958415c − 0.759301





−0.395649cu

+ 0.295906u

+ ··· + 3.20198c − 1.89901

−0.122758cu

+ 0.156914u

+ ··· + 1.24357c − 2.65831





0.545906u

+ 0.172052u

+ ··· + 4.20498u − 0.899010

−0.0826896u

+ 0.291100u

+ ··· + 2.60884u − 0.347500









0.272891cu

− 0.138991u

+ ··· − 1.95842c − 0.759301

0.272891cu

− 0.138991u

+ ··· − 0.958415c − 0.759301





0.373854cu

+ 1.39231u

+ ··· − 1.18362c − 3.88958

−0.100899cu

+ 0.624721u

+ ··· − 0.627657c − 4.09737



(ii) Obstruction class = −1

(iii) Cusp Shapes = −

125334397169543797937

92530874909565185306

−

144830212205814099033

92530874909565185306

+ ··· −

34223567447539124627

92530874909565185306

u +

228286816014379276432

46265437454782592653

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 18u

+ ··· − 5u + 1)

+ 2u

+ ··· + 5u + 1)

− 2u

+ ··· − 37u + 17)

+ u

+ ··· + 4u − 4)

− 2u

+ ··· − 5u + 1)

, c

+ 3u

+ ··· − 104u − 16

− u

+ ··· − 4u − 4)

− 43u

+ ··· − 800u + 256

, c

− u

+ 3u

+ ··· − 104u + 16

+ 43u

+ ··· + 800u + 256

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

+ 6y

+ ··· − 61y + 1)

, c

+ 18y

+ ··· − 5y + 1)

− 6y

+ ··· − 6333y + 289)

, c

− 15y

+ ··· − 72y + 16)

, c

− 43y

+ ··· − 800y + 256

, c

− 23y

+ ··· − 1516032y + 65536

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.718175 + 0.689913I

a = 0.759326 − 0.224057I

b = 0.474987 − 0.230385I

c = −0.31772 − 1.41713I

d = −0.91042 − 2.46929I

6.09366 + 1.46931I 10.87065 − 3.08473I

u = −0.718175 + 0.689913I

a = 0.759326 − 0.224057I

b = 0.474987 − 0.230385I

c = −1.44823 − 0.31091I

d = −0.371242 + 0.261333I

6.09366 + 1.46931I 10.87065 − 3.08473I

u = −0.718175 − 0.689913I

a = 0.759326 + 0.224057I

b = 0.474987 + 0.230385I

c = −0.31772 + 1.41713I

d = −0.91042 + 2.46929I

6.09366 − 1.46931I 10.87065 + 3.08473I

u = −0.718175 − 0.689913I

a = 0.759326 + 0.224057I

b = 0.474987 + 0.230385I

c = −1.44823 + 0.31091I

d = −0.371242 − 0.261333I

6.09366 − 1.46931I 10.87065 + 3.08473I

u = −0.257524 + 0.984493I

a = 0.730146 − 0.660359I

b = −0.70295 + 1.28730I

c = −0.967410 − 0.240606I

d = −0.263329 + 0.455019I

−1.60581 + 0.49664I −0.272784 − 1.115032I

u = −0.257524 + 0.984493I

a = 0.730146 − 0.660359I

b = −0.70295 + 1.28730I

c = 0.593095 + 0.049873I

d = 0.100752 + 0.635092I

−1.60581 + 0.49664I −0.272784 − 1.115032I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.257524 − 0.984493I

a = 0.730146 + 0.660359I

b = −0.70295 − 1.28730I

c = −0.967410 + 0.240606I

d = −0.263329 − 0.455019I

−1.60581 − 0.49664I −0.272784 + 1.115032I

u = −0.257524 − 0.984493I

a = 0.730146 + 0.660359I

b = −0.70295 − 1.28730I

c = 0.593095 − 0.049873I

d = 0.100752 − 0.635092I

−1.60581 − 0.49664I −0.272784 + 1.115032I

u = −0.924425 + 0.450549I

a = −1.61291 + 2.52841I

b = 0.52794 + 1.92562I

c = 0.171561 + 0.498961I

d = −0.364946 + 0.973548I

0.88516 + 3.95746I 1.72480 − 4.57056I

u = −0.924425 + 0.450549I

a = −1.61291 + 2.52841I

b = 0.52794 + 1.92562I

c = −1.63227 − 0.20134I

d = −0.419779 + 0.157998I

0.88516 + 3.95746I 1.72480 − 4.57056I

u = −0.924425 − 0.450549I

a = −1.61291 − 2.52841I

b = 0.52794 − 1.92562I

c = 0.171561 − 0.498961I

d = −0.364946 − 0.973548I

0.88516 − 3.95746I 1.72480 + 4.57056I

u = −0.924425 − 0.450549I

a = −1.61291 − 2.52841I

b = 0.52794 − 1.92562I

c = −1.63227 + 0.20134I

d = −0.419779 − 0.157998I

0.88516 − 3.95746I 1.72480 + 4.57056I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.531079 + 0.883531I

a = 0.779777 + 0.149134I

b = 0.134208 + 0.296022I

c = 1.227900 − 0.296771I

d = 0.335612 + 0.358410I

2.26472 + 1.90334I 6.18021 − 1.07076I

u = 0.531079 + 0.883531I

a = 0.779777 + 0.149134I

b = 0.134208 + 0.296022I

c = −0.458700 + 0.220577I

d = 0.014532 + 0.739994I

2.26472 + 1.90334I 6.18021 − 1.07076I

u = 0.531079 − 0.883531I

a = 0.779777 − 0.149134I

b = 0.134208 − 0.296022I

c = 1.227900 + 0.296771I

d = 0.335612 − 0.358410I

2.26472 − 1.90334I 6.18021 + 1.07076I

u = 0.531079 − 0.883531I

a = 0.779777 − 0.149134I

b = 0.134208 − 0.296022I

c = −0.458700 − 0.220577I

d = 0.014532 − 0.739994I

2.26472 − 1.90334I 6.18021 + 1.07076I

u = −0.860778 + 0.429023I

a = 0.649690 + 0.406518I

b = 1.31432 − 1.20770I

c = −0.351705 − 1.146920I

d = −1.07373 − 1.99897I

1.135440 − 0.390890I 2.15175 − 1.14697I

u = −0.860778 + 0.429023I

a = 0.649690 + 0.406518I

b = 1.31432 − 1.20770I

c = 0.145196 + 0.457097I

d = −0.391254 + 0.916323I

1.135440 − 0.390890I 2.15175 − 1.14697I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.860778 − 0.429023I

a = 0.649690 − 0.406518I

b = 1.31432 + 1.20770I

c = −0.351705 + 1.146920I

d = −1.07373 + 1.99897I

1.135440 + 0.390890I 2.15175 + 1.14697I

u = −0.860778 − 0.429023I

a = 0.649690 − 0.406518I

b = 1.31432 + 1.20770I

c = 0.145196 − 0.457097I

d = −0.391254 − 0.916323I

1.135440 + 0.390890I 2.15175 + 1.14697I

u = 0.959864 + 0.423605I

a = 0.91740 + 1.74027I

b = −0.949339 + 0.978173I

c = 0.262143 − 1.119880I

d = 0.93067 − 1.92567I

0.93346 − 1.43399I 1.64648 + 2.88902I

u = 0.959864 + 0.423605I

a = 0.91740 + 1.74027I

b = −0.949339 + 0.978173I

c = 1.64185 − 0.17843I

d = 0.430009 + 0.146452I

0.93346 − 1.43399I 1.64648 + 2.88902I

u = 0.959864 − 0.423605I

a = 0.91740 − 1.74027I

b = −0.949339 − 0.978173I

c = 0.262143 + 1.119880I

d = 0.93067 + 1.92567I

0.93346 + 1.43399I 1.64648 − 2.88902I

u = 0.959864 − 0.423605I

a = 0.91740 − 1.74027I

b = −0.949339 − 0.978173I

c = 1.64185 + 0.17843I

d = 0.430009 − 0.146452I

0.93346 + 1.43399I 1.64648 − 2.88902I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.590924 + 0.743055I

a = 0.647196 − 0.465482I

b = 0.84895 + 1.68623I

c = 1.344230 − 0.369647I

d = 0.333035 + 0.298147I

4.63851 + 3.34557I 8.53398 − 2.94107I

u = 0.590924 + 0.743055I

a = 0.647196 − 0.465482I

b = 0.84895 + 1.68623I

c = 0.32357 − 1.52942I

d = 0.87033 − 2.69031I

4.63851 + 3.34557I 8.53398 − 2.94107I

u = 0.590924 − 0.743055I

a = 0.647196 + 0.465482I

b = 0.84895 − 1.68623I

c = 1.344230 + 0.369647I

d = 0.333035 − 0.298147I

4.63851 − 3.34557I 8.53398 + 2.94107I

u = 0.590924 − 0.743055I

a = 0.647196 + 0.465482I

b = 0.84895 − 1.68623I

c = 0.32357 + 1.52942I

d = 0.87033 + 2.69031I

4.63851 − 3.34557I 8.53398 + 2.94107I

u = −0.944268 + 0.080074I

a = 0.47872 − 2.76266I

b = −0.35670 − 1.46996I

c = −0.105277 + 0.649327I

d = −0.762060 + 1.161940I

−0.25240 − 2.75914I −1.19764 + 4.35912I

u = −0.944268 + 0.080074I

a = 0.47872 − 2.76266I

b = −0.35670 − 1.46996I

c = −1.77987 − 0.04841I

d = −0.411287 + 0.028167I

−0.25240 − 2.75914I −1.19764 + 4.35912I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.944268 − 0.080074I

a = 0.47872 + 2.76266I

b = −0.35670 + 1.46996I

c = −0.105277 − 0.649327I

d = −0.762060 − 1.161940I

−0.25240 + 2.75914I −1.19764 − 4.35912I

u = −0.944268 − 0.080074I

a = 0.47872 + 2.76266I

b = −0.35670 + 1.46996I

c = −1.77987 + 0.04841I

d = −0.411287 − 0.028167I

−0.25240 + 2.75914I −1.19764 − 4.35912I

u = 0.932230 + 0.544110I

a = 0.711056 + 0.261382I

b = 0.873920 + 0.226986I

c = 0.256252 − 1.221400I

d = 0.88507 − 2.09363I

2.05024 − 4.86305I 4.53119 + 6.13263I

u = 0.932230 + 0.544110I

a = 0.711056 + 0.261382I

b = 0.873920 + 0.226986I

c = −0.235604 + 0.489367I

d = 0.285549 + 0.970591I

2.05024 − 4.86305I 4.53119 + 6.13263I

u = 0.932230 − 0.544110I

a = 0.711056 − 0.261382I

b = 0.873920 − 0.226986I

c = 0.256252 + 1.221400I

d = 0.88507 + 2.09363I

2.05024 + 4.86305I 4.53119 − 6.13263I

u = 0.932230 − 0.544110I

a = 0.711056 − 0.261382I

b = 0.873920 − 0.226986I

c = −0.235604 − 0.489367I

d = 0.285549 − 0.970591I

2.05024 + 4.86305I 4.53119 − 6.13263I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.708662 + 0.534244I

a = 0.675134 − 0.882504I

b = 0.244504 − 0.127412I

c = −0.208049 + 0.334490I

d = 0.283657 + 0.784026I

2.72088 + 0.47986I 5.93461 + 0.48126I

u = 0.708662 + 0.534244I

a = 0.675134 − 0.882504I

b = 0.244504 − 0.127412I

c = 1.57174 − 0.36447I

d = 0.350066 + 0.206079I

2.72088 + 0.47986I 5.93461 + 0.48126I

u = 0.708662 − 0.534244I

a = 0.675134 + 0.882504I

b = 0.244504 + 0.127412I

c = −0.208049 − 0.334490I

d = 0.283657 − 0.784026I

2.72088 − 0.47986I 5.93461 − 0.48126I

u = 0.708662 − 0.534244I

a = 0.675134 + 0.882504I

b = 0.244504 + 0.127412I

c = 1.57174 + 0.36447I

d = 0.350066 − 0.206079I

2.72088 − 0.47986I 5.93461 − 0.48126I

u = −0.947945 + 0.635897I

a = 0.229415 + 0.658277I

b = 0.175268 + 0.437196I

c = −0.217424 − 1.276340I

d = −0.79602 − 2.17049I

5.38662 + 3.65224I 8.95361 − 3.74887I

u = −0.947945 + 0.635897I

a = 0.229415 + 0.658277I

b = 0.175268 + 0.437196I

c = −1.53314 − 0.18806I

d = −0.442998 + 0.217877I

5.38662 + 3.65224I 8.95361 − 3.74887I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.947945 − 0.635897I

a = 0.229415 − 0.658277I

b = 0.175268 − 0.437196I

c = −0.217424 + 1.276340I

d = −0.79602 + 2.17049I

5.38662 − 3.65224I 8.95361 + 3.74887I

u = −0.947945 − 0.635897I

a = 0.229415 − 0.658277I

b = 0.175268 − 0.437196I

c = −1.53314 + 0.18806I

d = −0.442998 − 0.217877I

5.38662 − 3.65224I 8.95361 + 3.74887I

u = −0.538756 + 1.020250I

a = 0.619031 + 0.499374I

b = 0.63204 − 2.14935I

c = −1.196440 − 0.196554I

d = −0.364434 + 0.402323I

0.15070 − 6.61979I 2.54938 + 5.39938I

u = −0.538756 + 1.020250I

a = 0.619031 + 0.499374I

b = 0.63204 − 2.14935I

c = 0.545739 + 0.245695I

d = 0.052704 + 0.770717I

0.15070 − 6.61979I 2.54938 + 5.39938I

u = −0.538756 − 1.020250I

a = 0.619031 − 0.499374I

b = 0.63204 + 2.14935I

c = −1.196440 + 0.196554I

d = −0.364434 − 0.402323I

0.15070 + 6.61979I 2.54938 − 5.39938I

u = −0.538756 − 1.020250I

a = 0.619031 − 0.499374I

b = 0.63204 + 2.14935I

c = 0.545739 − 0.245695I

d = 0.052704 − 0.770717I

0.15070 + 6.61979I 2.54938 − 5.39938I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.20232

a = 0.295778

b = −0.330847

c = 0.007353 + 0.846402I

d = −0.58336 + 1.44227I

−4.04432 0.509520

u = −1.20232

a = 0.295778

b = −0.330847

c = 0.007353 − 0.846402I

d = −0.58336 − 1.44227I

−4.04432 0.509520

u = 1.034470 + 0.639555I

a = −1.59290 − 1.84692I

b = 0.81702 − 2.22810I

c = 0.166717 − 1.255100I

d = 0.72123 − 2.11158I

3.29566 − 8.62980I 5.39171 + 7.80256I

u = 1.034470 + 0.639555I

a = −1.59290 − 1.84692I

b = 0.81702 − 2.22810I

c = 1.53962 − 0.14913I

d = 0.470945 + 0.211132I

3.29566 − 8.62980I 5.39171 + 7.80256I

u = 1.034470 − 0.639555I

a = −1.59290 + 1.84692I

b = 0.81702 + 2.22810I

c = 0.166717 + 1.255100I

d = 0.72123 + 2.11158I

3.29566 + 8.62980I 5.39171 − 7.80256I

u = 1.034470 − 0.639555I

a = −1.59290 + 1.84692I

b = 0.81702 + 2.22810I

c = 1.53962 + 0.14913I

d = 0.470945 − 0.211132I

3.29566 + 8.62980I 5.39171 − 7.80256I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 1.106900 + 0.677869I

a = 0.097757 − 0.529135I

b = 0.057337 − 0.616881I

c = 0.120703 − 1.260900I

d = 0.64408 − 2.09872I

0.49001 − 7.69321I 4.38087 + 4.90752I

u = 1.106900 + 0.677869I

a = 0.097757 − 0.529135I

b = 0.057337 − 0.616881I

c = −0.338125 + 0.575068I

d = 0.173339 + 1.077430I

0.49001 − 7.69321I 4.38087 + 4.90752I

u = 1.106900 − 0.677869I

a = 0.097757 + 0.529135I

b = 0.057337 + 0.616881I

c = 0.120703 + 1.260900I

d = 0.64408 + 2.09872I

0.49001 + 7.69321I 4.38087 − 4.90752I

u = 1.106900 − 0.677869I

a = 0.097757 + 0.529135I

b = 0.057337 + 0.616881I

c = −0.338125 − 0.575068I

d = 0.173339 − 1.077430I

0.49001 + 7.69321I 4.38087 − 4.90752I

u = −1.174770 + 0.565730I

a = 0.54948 − 1.48780I

b = −1.57912 − 1.14053I

c = −0.099407 − 1.192690I

d = −0.64241 − 1.98202I

−4.51708 + 4.93169I −1.83206 − 3.23906I

u = −1.174770 + 0.565730I

a = 0.54948 − 1.48780I

b = −1.57912 − 1.14053I

c = 0.288625 + 0.628881I

d = −0.231233 + 1.139200I

−4.51708 + 4.93169I −1.83206 − 3.23906I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.174770 − 0.565730I

a = 0.54948 + 1.48780I

b = −1.57912 + 1.14053I

c = −0.099407 + 1.192690I

d = −0.64241 + 1.98202I

−4.51708 − 4.93169I −1.83206 + 3.23906I

u = −1.174770 − 0.565730I

a = 0.54948 + 1.48780I

b = −1.57912 + 1.14053I

c = 0.288625 − 0.628881I

d = −0.231233 − 1.139200I

−4.51708 − 4.93169I −1.83206 + 3.23906I

u = 1.307610 + 0.109024I

a = −0.34714 − 2.01472I

b = −0.43751 − 2.35043I

c = −0.026803 − 0.942642I

d = 0.53828 − 1.57459I

−7.49754 − 4.17106I −3.10533 + 3.69910I

u = 1.307610 + 0.109024I

a = −0.34714 − 2.01472I

b = −0.43751 − 2.35043I

c = −0.104395 + 0.836665I

d = 0.45070 + 1.41497I

−7.49754 − 4.17106I −3.10533 + 3.69910I

u = 1.307610 − 0.109024I

a = −0.34714 + 2.01472I

b = −0.43751 + 2.35043I

c = −0.026803 + 0.942642I

d = 0.53828 + 1.57459I

−7.49754 + 4.17106I −3.10533 − 3.69910I

u = 1.307610 − 0.109024I

a = −0.34714 + 2.01472I

b = −0.43751 + 2.35043I

c = −0.104395 − 0.836665I

d = 0.45070 − 1.41497I

−7.49754 + 4.17106I −3.10533 − 3.69910I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.155970 + 0.720501I

a = −1.40371 + 1.59813I

b = 0.92356 + 2.51029I

c = −0.090116 − 1.273270I

d = −0.58952 − 2.10255I

−1.81705 + 12.92960I 1.59130 − 8.57718I

u = −1.155970 + 0.720501I

a = −1.40371 + 1.59813I

b = 0.92356 + 2.51029I

c = 0.366569 + 0.595652I

d = −0.141563 + 1.100900I

−1.81705 + 12.92960I 1.59130 − 8.57718I

u = −1.155970 − 0.720501I

a = −1.40371 − 1.59813I

b = 0.92356 − 2.51029I

c = −0.090116 + 1.273270I

d = −0.58952 + 2.10255I

−1.81705 − 12.92960I 1.59130 + 8.57718I

u = −1.155970 − 0.720501I

a = −1.40371 − 1.59813I

b = 0.92356 − 2.51029I

c = 0.366569 − 0.595652I

d = −0.141563 − 1.100900I

−1.81705 − 12.92960I 1.59130 + 8.57718I

u = 0.620359

a = 0.850291

b = −0.0134746

c = 0.526910

d = 1.44852

2.31973 2.07640

u = 0.620359

a = 0.850291

b = −0.0134746

c = 2.14922

d = 0.287912

2.31973 2.07640

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.141853 + 0.491513I

a = 0.789501 + 0.479357I

b = 0.173722 − 0.874524I

c = 0.76489 − 1.34869I

d = 0.089447 + 0.255868I

2.95645 − 1.74546I 9.67431 + 3.49934I

u = 0.141853 + 0.491513I

a = 0.789501 + 0.479357I

b = 0.173722 − 0.874524I

c = 0.43488 − 2.33014I

d = 0.93136 − 4.42466I

2.95645 − 1.74546I 9.67431 + 3.49934I

u = 0.141853 − 0.491513I

a = 0.789501 − 0.479357I

b = 0.173722 + 0.874524I

c = 0.76489 + 1.34869I

d = 0.089447 − 0.255868I

2.95645 + 1.74546I 9.67431 − 3.49934I

u = 0.141853 − 0.491513I

a = 0.789501 − 0.479357I

b = 0.173722 + 0.874524I

c = 0.43488 + 2.33014I

d = 0.93136 + 4.42466I

2.95645 + 1.74546I 9.67431 − 3.49934I

III. I

= ha, d, c − v, b − v, v

− v + 1i

(i) Arc colorings























−v + 1













−1

v − 1













v − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v + 5

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1

+ u + 1

, c

(u + 1)

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1

, c

(y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 0.500000 + 0.866025I

a = 0

b = 0.500000 + 0.866025I

c = 0.500000 + 0.866025I

d = 0

1.64493 + 2.02988I 3.00000 − 3.46410I

v = 0.500000 − 0.866025I

a = 0

b = 0.500000 − 0.866025I

c = 0.500000 − 0.866025I

d = 0

1.64493 − 2.02988I 3.00000 + 3.46410I

IV. I

= ha, d − v + 1, −av + c + 1, b − v, v

− v + 1i

(i) Arc colorings























−v + 1





−1

v − 1





v − 1





−1

v − 1









−v + 1





−1

v − 1



(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v + 5

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

− u + 1

+ u + 1

, c

(u + 1)

(u − 1)

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ y + 1

, c

(y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = 0.500000 + 0.866025I

a = 0

b = 0.500000 + 0.866025I

c = −1.00000

d = −0.500000 + 0.866025I

1.64493 + 2.02988I 3.00000 − 3.46410I

v = 0.500000 − 0.866025I

a = 0

b = 0.500000 − 0.866025I

c = −1.00000

d = −0.500000 − 0.866025I

1.64493 − 2.02988I 3.00000 + 3.46410I

V. I

= hc, d − 1, b, a − 1, v + 1i

(i) Arc colorings







−1

























−1









−1





−1







(ii) Obstruction class = 1

(iii) Cusp Shapes = 12

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

u − 1

, c

u + 1

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

y − 1

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = −1.00000

a = 1.00000

b = 0

c = 0

d = 1.00000

3.28987 12.0000

VI. I

ha, db+da+· · ·+b−1, a

d−da+· · ·−a+1, dv+1, cv−ba−bv+b+a, b

−b+1i

(i) Arc colorings























−b + 1





−cb + c − 1





c + v

−cb + c − 1





−1

b − 1









−c

cb − c + 1





c − 1

−cb + c + b − 2



(ii) Obstruction class = −1

(iii) Cusp Shapes = −c

b + 2cb + v

− 2c − 4b + 13

(iv) u-Polynomials at the component : It cannot be deﬁned for a positive

dimension component.

(v) Riley Polynomials at the component : It cannot be deﬁned for a positive

dimension component.

(iv) Complex Volumes and Cusp Shapes

Solution to I

√

−1(vol +

√

−1CS) Cusp shape

v = ···

a = ···

b = ···

c = ···

d = ···

3.28987 − 2.02988I 8.56933 + 3.58827I

VII. u-Polynomials

Crossings u-Polynomials at each crossing

u(u

− u + 1)

+ 21u

+ ··· − 40u + 16)

u(u

+ u + 1)

+ u

+ ··· − 4u + 4)

u(u

− u + 1)

− u

+ ··· − 2596u + 1252)

, c

− 3u

+ ··· − 32u + 32)

u(u

− u + 1)

+ u

+ ··· − 4u + 4)

(u − 1)(u + 1)

+ 5u

+ ··· + 2u + 1)

(u + 1)

+ 5u

+ ··· + 2u + 1)

, c

(u + 1)

− 21u

+ ··· + 4u + 1)

(u − 1)

+ 5u

+ ··· + 2u + 1)

(u − 1)

(u + 1)(u

+ 5u

+ ··· + 2u + 1)

VIII. Riley Polynomials

Crossings Riley Polynomials at each crossing

y(y

+ y + 1)

+ 9y

+ ··· − 5664y + 256)

, c

y(y

+ y + 1)

+ 21y

+ ··· − 40y + 16)

y(y

+ y + 1)

− 3y

+ ··· − 2.04086 × 10

y + 1567504)

, c

− 15y

+ ··· + 4096y + 1024)

, c

(y − 1)

− 21y

+ ··· + 4y + 1)

, c

(y − 1)

+ 19y

+ ··· − 72y + 1)