12a

0117

(K12a

0117

)

A knot diagram

Linearized knot diagam

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

Solving Sequence

3,8 4,11 5,9

2 1 12 7 10 6

, c

Ideals for irreducible components

of X

par

= h3.99437 × 10

− 1.17694 × 10

+ ··· + 1.61592 × 10

d + 3.40126 × 10

3.31530 × 10

− 3.28100 × 10

+ ··· + 3.23183 × 10

c + 4.23971 × 10

− 4.23475 × 10

+ 5.01357 × 10

+ ··· + 1.61592 × 10

b − 1.64157 × 10

1.77513 × 10

− 8.50273 × 10

+ ··· + 3.23183 × 10

a − 3.36911 × 10

, u

− 3u

+ ··· + 64u − 32i

= h5.02544 × 10

− 6.24095 × 10

+ ··· + 3.02602 × 10

d + 2.19741 × 10

− 6.42534 × 10

− 3.74850 × 10

+ ··· + 4.84163 × 10

c + 2.56918 × 10

4.96996 × 10

− 6.75491 × 10

+ ··· − 1.88128 × 10

a − 4.81090 × 10

− 5.09108 × 10

− 2.42015 × 10

+ ··· − 1.99866 × 10

a − 6.67500 × 10

, u

+ u

+ ··· − 8u − 4i

= hc, d + 1, b, a − 1, v

+ v + 1i

= ha, d + 1, c + a, b − 1, v

+ v + 1i

= ha, d, c + 1, b − 1, v + 1i

= ha, d

− dv + 1, v

dc − v

d − cv + a + v, da − c + 1, c

− cav − 2v

c + a

+ av + v

, b − 1i

* 5 irreducible components of dim

= 0, with total 118 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.

= h3.99 × 10

− 1.18× 10

+ · · · + 1.62 × 10

d +3.40 × 10

, 3.32 ×

− 3.28 × 10

+ · · · + 3.23 × 10

c + 4.24 × 10

, −4.23 ×

+ 5.01 × 10

+ · · · + 1.62 × 10

b − 1.64 × 10

, 1.78 × 10

−

8.50 × 10

+ · · · + 3.23 × 10

a − 3.37 × 10

, u

− 3u

+ · · · + 64u − 32i

(i) Arc colorings















−0.00102583u

+ 0.0101521u

+ ··· − 0.345721u − 1.31186

−0.0247189u

+ 0.0728342u

+ ··· − 0.100365u − 0.210485





−0.000549265u

+ 0.00263093u

+ ··· + 0.260997u + 1.04248

0.00262065u

− 0.00310262u

+ ··· − 0.582583u + 0.101587





0.0176645u

− 0.0450742u

+ ··· − 2.28416u − 0.505300

−0.0151840u

+ 0.0606156u

+ ··· + 2.05478u − 1.00258





−0.000549265u

+ 0.00263093u

+ ··· + 0.260997u + 1.04248

−0.00664203u

+ 0.00629753u

+ ··· + 0.502086u − 0.0701269





−0.00719130u

+ 0.00892846u

+ ··· + 0.763083u + 0.972348

−0.00664203u

+ 0.00629753u

+ ··· + 0.502086u − 0.0701269





−0.00209131u

+ 0.0152778u

+ ··· − 0.305485u − 1.53809

−0.0237130u

+ 0.0774882u

+ ··· − 0.381714u − 0.292656





+ u





0.0268260u

− 0.0643618u

+ ··· − 3.05990u − 0.696376

0.000919890u

+ 0.0297984u

+ ··· + 1.04761u − 0.931356





−0.0236931u

+ 0.0626821u

+ ··· + 0.245356u + 1.10137

−0.0252351u

+ 0.0753290u

+ ··· − 0.321126u − 0.479194



(ii) Obstruction class = −1

(iii) Cusp Shapes = −0.141642u

+ 0.373966u

+ ··· + 18.4912u − 10.3634

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

+ 19u

+ ··· + 11u + 1

, c

− 5u

+ ··· − 5u + 1

, c

+ 3u

+ ··· + 64u + 32

, c

+ u

+ ··· + 8u + 4

, c

+ 15u

+ ··· + 88u − 16

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

+ 21y

+ ··· − 117y − 1

, c

− 19y

+ ··· + 11y − 1

, c

+ 15y

+ ··· − 1024y − 1024

, c

+ 15y

+ ··· + 88y − 16

, c

+ 27y

+ ··· + 18208y − 256

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.083173 + 0.999400I

a = 0.72843 − 1.47481I

b = −0.730777 + 0.545079I

c = 0.847687 + 0.941729I

d = −0.167389 − 0.931774I

−0.05445 + 4.88438I −6.23953 − 8.26907I

u = −0.083173 − 0.999400I

a = 0.72843 + 1.47481I

b = −0.730777 − 0.545079I

c = 0.847687 − 0.941729I

d = −0.167389 + 0.931774I

−0.05445 − 4.88438I −6.23953 + 8.26907I

u = −0.853926 + 0.430623I

a = 0.481539 − 0.101502I

b = 0.988333 + 0.419116I

c = −0.433251 + 0.229265I

d = −1.40759 + 0.95521I

−2.38574 − 3.27178I −9.17419 + 4.94523I

u = −0.853926 − 0.430623I

a = 0.481539 + 0.101502I

b = 0.988333 − 0.419116I

c = −0.433251 − 0.229265I

d = −1.40759 − 0.95521I

−2.38574 + 3.27178I −9.17419 − 4.94523I

u = 1.033880 + 0.177916I

a = 0.555689 − 0.233546I

b = 0.529415 + 0.642786I

c = −0.074981 + 1.239350I

d = −0.257235 + 0.960210I

2.18783 + 1.46576I −4.39540 + 0.53246I

u = 1.033880 − 0.177916I

a = 0.555689 + 0.233546I

b = 0.529415 − 0.642786I

c = −0.074981 − 1.239350I

d = −0.257235 − 0.960210I

2.18783 − 1.46576I −4.39540 − 0.53246I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.073470 + 0.049653I

a = 0.530276 + 0.204737I

b = 0.641163 − 0.633645I

c = 0.195783 − 1.125570I

d = −0.132889 − 0.974636I

2.38615 + 4.03105I −4.49490 − 6.55598I

u = −1.073470 − 0.049653I

a = 0.530276 − 0.204737I

b = 0.641163 + 0.633645I

c = 0.195783 + 1.125570I

d = −0.132889 + 0.974636I

2.38615 − 4.03105I −4.49490 + 6.55598I

u = −0.118650 + 1.091750I

a = 0.665477 + 1.093120I

b = −0.593668 − 0.667444I

c = 0.042888 − 0.446984I

d = −0.181308 + 1.017000I

3.02575 − 1.21250I −0.81942 + 2.86814I

u = −0.118650 − 1.091750I

a = 0.665477 − 1.093120I

b = −0.593668 + 0.667444I

c = 0.042888 + 0.446984I

d = −0.181308 − 1.017000I

3.02575 + 1.21250I −0.81942 − 2.86814I

u = 0.359241 + 0.820253I

a = 0.870329 − 0.688965I

b = −0.293648 + 0.559159I

c = −0.888721 + 0.717011I

d = −0.421777 − 0.556156I

−0.40821 − 1.76300I −5.68682 + 2.17312I

u = 0.359241 − 0.820253I

a = 0.870329 + 0.688965I

b = −0.293648 − 0.559159I

c = −0.888721 − 0.717011I

d = −0.421777 + 0.556156I

−0.40821 + 1.76300I −5.68682 − 2.17312I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.910628 + 0.648287I

a = 0.449928 + 0.096871I

b = 1.124110 − 0.457326I

c = −0.725195 + 0.750875I

d = −2.15758 + 0.22862I

−6.78885 + 5.21532I −15.4874 − 4.9651I

u = 0.910628 − 0.648287I

a = 0.449928 − 0.096871I

b = 1.124110 + 0.457326I

c = −0.725195 − 0.750875I

d = −2.15758 − 0.22862I

−6.78885 − 5.21532I −15.4874 + 4.9651I

u = 0.653698 + 0.530431I

a = 0.474331 + 0.068978I

b = 1.064570 − 0.300236I

c = −1.46607 − 0.52025I

d = −2.88991 − 1.78080I

−4.07070 − 1.09789I −13.44053 + 1.40134I

u = 0.653698 − 0.530431I

a = 0.474331 − 0.068978I

b = 1.064570 + 0.300236I

c = −1.46607 + 0.52025I

d = −2.88991 + 1.78080I

−4.07070 + 1.09789I −13.44053 − 1.40134I

u = 0.576447 + 1.031310I

a = −0.28667 + 1.83591I

b = −1.083030 − 0.531725I

c = 0.534742 + 1.166610I

d = −1.301930 − 0.329738I

−2.58520 − 3.71825I −9.87585 + 4.37570I

u = 0.576447 − 1.031310I

a = −0.28667 − 1.83591I

b = −1.083030 + 0.531725I

c = 0.534742 − 1.166610I

d = −1.301930 + 0.329738I

−2.58520 + 3.71825I −9.87585 − 4.37570I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.098260 + 0.588414I

a = 0.444497 − 0.121481I

b = 1.093370 + 0.572119I

c = 0.249890 − 0.823067I

d = −1.021840 − 0.591171I

−0.56681 − 5.57701I −7.91552 + 3.90122I

u = −1.098260 − 0.588414I

a = 0.444497 + 0.121481I

b = 1.093370 − 0.572119I

c = 0.249890 + 0.823067I

d = −1.021840 + 0.591171I

−0.56681 + 5.57701I −7.91552 − 3.90122I

u = −0.614898 + 1.118930I

a = −0.31373 − 1.65536I

b = −1.110520 + 0.583151I

c = 0.160557 − 0.564023I

d = −0.993758 + 0.779989I

−0.28043 + 8.69625I −6.61034 − 7.94559I

u = −0.614898 − 1.118930I

a = −0.31373 + 1.65536I

b = −1.110520 − 0.583151I

c = 0.160557 + 0.564023I

d = −0.993758 − 0.779989I

−0.28043 − 8.69625I −6.61034 + 7.94559I

u = 1.109210 + 0.657844I

a = 0.436604 + 0.117557I

b = 1.135580 − 0.575012I

c = 0.205444 + 1.179480I

d = −1.16587 + 0.97462I

−1.67059 + 11.25340I −9.77881 − 8.46956I

u = 1.109210 − 0.657844I

a = 0.436604 − 0.117557I

b = 1.135580 + 0.575012I

c = 0.205444 − 1.179480I

d = −1.16587 − 0.97462I

−1.67059 − 11.25340I −9.77881 + 8.46956I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.724262 + 1.081360I

a = −0.51124 + 1.64089I

b = −1.173080 − 0.555502I

c = −0.733855 + 0.745817I

d = −1.52033 − 1.25212I

−5.40682 − 11.27400I −13.1483 + 8.7166I

u = 0.724262 − 1.081360I

a = −0.51124 − 1.64089I

b = −1.173080 + 0.555502I

c = −0.733855 − 0.745817I

d = −1.52033 + 1.25212I

−5.40682 + 11.27400I −13.1483 − 8.7166I

u = −0.460216 + 1.229810I

a = 0.522317 + 0.781774I

b = −0.409134 − 0.884374I

c = −0.886956 + 0.201557I

d = −0.82278 + 1.35195I

6.33622 + 1.07199I −1.20689 + 1.13710I

u = −0.460216 − 1.229810I

a = 0.522317 − 0.781774I

b = −0.409134 + 0.884374I

c = −0.886956 − 0.201557I

d = −0.82278 − 1.35195I

6.33622 − 1.07199I −1.20689 − 1.13710I

u = 0.548223 + 1.211710I

a = 0.521334 − 0.726495I

b = −0.347993 + 0.908591I

c = −1.151280 − 0.142674I

d = −1.06491 − 1.27360I

5.47474 − 6.91618I −2.74163 + 4.17963I

u = 0.548223 − 1.211710I

a = 0.521334 + 0.726495I

b = −0.347993 − 0.908591I

c = −1.151280 + 0.142674I

d = −1.06491 + 1.27360I

5.47474 + 6.91618I −2.74163 − 4.17963I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.168268 + 1.366960I

a = 0.219555 + 1.223470I

b = −0.857901 − 0.791847I

c = 0.981919 + 0.112942I

d = 0.509117 + 0.733224I

7.94604 − 2.88039I −2.40290 + 2.87135I

u = 0.168268 − 1.366960I

a = 0.219555 − 1.223470I

b = −0.857901 + 0.791847I

c = 0.981919 − 0.112942I

d = 0.509117 − 0.733224I

7.94604 + 2.88039I −2.40290 − 2.87135I

u = 0.620383

a = 0.635515

b = 0.573528

c = 0.187133

d = 0.872137

−1.07886 −8.06050

u = −0.256404 + 1.367180I

a = 0.141032 − 1.272300I

b = −0.913934 + 0.776435I

c = 1.080980 − 0.022426I

d = 0.549850 − 0.430577I

7.59831 + 8.92002I −3.37196 − 8.11870I

u = −0.256404 − 1.367180I

a = 0.141032 + 1.272300I

b = −0.913934 − 0.776435I

c = 1.080980 + 0.022426I

d = 0.549850 + 0.430577I

7.59831 − 8.92002I −3.37196 + 8.11870I

u = 0.170237 + 0.574659I

a = 1.248050 − 0.407611I

b = −0.275978 + 0.236465I

c = −1.39991 + 0.71798I

d = 0.022364 − 0.261910I

−0.37797 − 1.66748I −2.59196 + 2.78569I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.170237 − 0.574659I

a = 1.248050 + 0.407611I

b = −0.275978 − 0.236465I

c = −1.39991 − 0.71798I

d = 0.022364 + 0.261910I

−0.37797 + 1.66748I −2.59196 − 2.78569I

u = −0.766704 + 1.185140I

a = −0.48729 − 1.47075I

b = −1.202990 + 0.612671I

c = −0.773518 + 0.191669I

d = −1.04186 + 1.80633I

1.37987 + 12.30340I −8.00000 − 6.92563I

u = −0.766704 − 1.185140I

a = −0.48729 + 1.47075I

b = −1.202990 − 0.612671I

c = −0.773518 − 0.191669I

d = −1.04186 − 1.80633I

1.37987 − 12.30340I −8.00000 + 6.92563I

u = 0.80758 + 1.17123I

a = −0.54459 + 1.45657I

b = −1.225210 − 0.602344I

c = −1.124940 − 0.247998I

d = −1.24308 − 2.01707I

0.0200 − 18.1731I −8.00000 + 11.31467I

u = 0.80758 − 1.17123I

a = −0.54459 − 1.45657I

b = −1.225210 + 0.602344I

c = −1.124940 + 0.247998I

d = −1.24308 + 2.01707I

0.0200 + 18.1731I −8.00000 − 11.31467I

u = −0.546169 + 0.144967I

a = 0.536373 − 0.039062I

b = 0.854540 + 0.135059I

c = 0.76523 + 1.50364I

d = 1.77463 + 3.06017I

−2.99504 − 2.52590I −15.3721 + 4.9240I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.546169 − 0.144967I

a = 0.536373 + 0.039062I

b = 0.854540 − 0.135059I

c = 0.76523 − 1.50364I

d = 1.77463 − 3.06017I

−2.99504 + 2.52590I −15.3721 − 4.9240I

II.

= h5.03×10

−6.24×10

+· · ·+3.03×10

d+2.20×10

, −6.43×

− 3.75 × 10

+ · · · + 4.84 × 10

c + 2.57 × 10

, 4.97 × 10

−

6.75 × 10

+ · · · − 1.88 × 10

a − 4.81 × 10

, −5.09 × 10

− 2.42 ×

+ · · · − 2.00 × 10

a − 6.67 × 10

, u

+ u

+ · · · − 8u − 4i

(i) Arc colorings















1.32710u

+ 0.774224u

+ ··· − 7.47663u − 0.530644

−0.166074u

+ 0.206243u

+ ··· + 0.520915u − 0.726173





−0.410603au

+ 0.558070u

+ ··· + 1.55425a + 3.97461





1.21768u

+ 0.482146u

+ ··· − 5.66991u + 0.141282

0.232442u

+ 1.70045u

+ ··· − 8.44317u − 6.53055





0.410603au

− 0.558070u

+ ··· − 1.55425a − 3.97461





0.410603au

− 0.558070u

+ ··· − 0.554254a − 3.97461

0.410603au

− 0.558070u

+ ··· − 1.55425a − 3.97461





−0.558070au

+ 2.05125u

+ ··· − 3.97461a + 4.17014





+ u





0.654987u

− 0.535216u

+ ··· + 1.28424u + 4.11539

0.556375u

+ 1.25106u

+ ··· − 7.37715u − 4.37512





−1.49318u

− 0.567981u

+ ··· + 7.99754u − 0.195529

0.558070u

− 0.392605u

+ ··· + 1.94978u + 2.97461



(ii) Obstruction class = −1

(iii) Cusp Shapes =

22672372767718895251

6052032860907500938

26762652226596727431

6052032860907500938

+ ··· −

270510416900889983975

6052032860907500938

u −

78654406032569267566

3026016430453750469

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

+ 39u

+ ··· + 2336u + 256

, c

− 3u

+ ··· − 56u + 16

− u

+ ··· − 8u + 4)

, c

+ 3u

+ ··· + 56u + 16

+ 2u

+ ··· − 2u

+ 1)

+ u

+ ··· − 8u − 4)

+ 12u

+ ··· + 4u − 1)

− 2u

+ ··· + 2u

− 1)

− 12u

+ ··· + 4u + 1)

− 39u

+ ··· − 2336u + 256

(v) Riley Polynomials at the component

Crossings Riley Polynomials at each crossing

, c

− 19y

+ ··· − 1270272y + 65536

, c

− 39y

+ ··· − 2336y + 256

, c

+ 15y

+ ··· − 72y − 16)

, c

+ 12y

+ ··· + 4y − 1)

, c

+ 24y

+ ··· + 40y − 1)

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.207372 + 0.975503I

a = 0.810975 − 0.957053I

b = −0.484647 + 0.608181I

c = 1.062090 + 0.321806I

d = 1.38172 + 0.97448I

0.32534 + 1.86508I −3.98051 − 2.70414I

u = 0.207372 + 0.975503I

a = 0.431780 + 0.018192I

b = 1.311890 − 0.097404I

c = 1.062090 + 0.321806I

d = 1.38172 + 0.97448I

0.32534 + 1.86508I −3.98051 − 2.70414I

u = 0.207372 − 0.975503I

a = 0.810975 + 0.957053I

b = −0.484647 − 0.608181I

c = 1.062090 − 0.321806I

d = 1.38172 − 0.97448I

0.32534 − 1.86508I −3.98051 + 2.70414I

u = 0.207372 − 0.975503I

a = 0.431780 − 0.018192I

b = 1.311890 + 0.097404I

c = 1.062090 − 0.321806I

d = 1.38172 − 0.97448I

0.32534 − 1.86508I −3.98051 + 2.70414I

u = −0.325740 + 0.904391I

a = 0.825073 + 0.782270I

b = −0.361740 − 0.605148I

c = −0.713255 + 1.217410I

d = 0.786266 − 0.470892I

−0.525136 − 0.811264I −5.97406 − 0.21615I

u = −0.325740 + 0.904391I

a = 0.40485 − 2.13305I

b = −0.914115 + 0.452512I

c = −0.713255 + 1.217410I

d = 0.786266 − 0.470892I

−0.525136 − 0.811264I −5.97406 − 0.21615I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.325740 − 0.904391I

a = 0.825073 − 0.782270I

b = −0.361740 + 0.605148I

c = −0.713255 − 1.217410I

d = 0.786266 + 0.470892I

−0.525136 + 0.811264I −5.97406 + 0.21615I

u = −0.325740 − 0.904391I

a = 0.40485 + 2.13305I

b = −0.914115 − 0.452512I

c = −0.713255 − 1.217410I

d = 0.786266 + 0.470892I

−0.525136 + 0.811264I −5.97406 + 0.21615I

u = −0.365087 + 0.973537I

a = 0.740296 + 0.786236I

b = −0.365209 − 0.674183I

c = 1.302500 − 0.057465I

d = 1.76334 − 0.68298I

−0.19294 + 3.49535I −5.62111 − 3.75014I

u = −0.365087 + 0.973537I

a = 0.430751 − 0.032296I

b = 1.308550 + 0.173084I

c = 1.302500 − 0.057465I

d = 1.76334 − 0.68298I

−0.19294 + 3.49535I −5.62111 − 3.75014I

u = −0.365087 − 0.973537I

a = 0.740296 − 0.786236I

b = −0.365209 + 0.674183I

c = 1.302500 + 0.057465I

d = 1.76334 + 0.68298I

−0.19294 − 3.49535I −5.62111 + 3.75014I

u = −0.365087 − 0.973537I

a = 0.430751 + 0.032296I

b = 1.308550 − 0.173084I

c = 1.302500 + 0.057465I

d = 1.76334 + 0.68298I

−0.19294 − 3.49535I −5.62111 + 3.75014I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.655999 + 0.827108I

a = 0.439925 + 0.062584I

b = 1.228020 − 0.316960I

c = −0.742711 + 0.708889I

d = −1.277850 − 0.434606I

−7.12278 − 2.53588I −15.8469 + 3.8333I

u = 0.655999 + 0.827108I

a = −0.70483 + 2.22687I

b = −1.129190 − 0.408170I

c = −0.742711 + 0.708889I

d = −1.277850 − 0.434606I

−7.12278 − 2.53588I −15.8469 + 3.8333I

u = 0.655999 − 0.827108I

a = 0.439925 − 0.062584I

b = 1.228020 + 0.316960I

c = −0.742711 − 0.708889I

d = −1.277850 + 0.434606I

−7.12278 + 2.53588I −15.8469 − 3.8333I

u = 0.655999 − 0.827108I

a = −0.70483 − 2.22687I

b = −1.129190 + 0.408170I

c = −0.742711 − 0.708889I

d = −1.277850 + 0.434606I

−7.12278 + 2.53588I −15.8469 − 3.8333I

u = −0.705852 + 0.611410I

a = 0.700829 + 0.414305I

b = 0.057360 − 0.625074I

c = 0.666953 + 0.717828I

d = 1.37809 + 0.36840I

−3.90189 − 1.16771I −12.59463 + 0.48242I

u = −0.705852 + 0.611410I

a = 0.462699 − 0.073809I

b = 1.107600 + 0.336202I

c = 0.666953 + 0.717828I

d = 1.37809 + 0.36840I

−3.90189 − 1.16771I −12.59463 + 0.48242I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.705852 − 0.611410I

a = 0.700829 − 0.414305I

b = 0.057360 + 0.625074I

c = 0.666953 − 0.717828I

d = 1.37809 − 0.36840I

−3.90189 + 1.16771I −12.59463 − 0.48242I

u = −0.705852 − 0.611410I

a = 0.462699 + 0.073809I

b = 1.107600 − 0.336202I

c = 0.666953 − 0.717828I

d = 1.37809 − 0.36840I

−3.90189 + 1.16771I −12.59463 − 0.48242I

u = 1.045080 + 0.368116I

a = 0.564228 − 0.293694I

b = 0.394500 + 0.725871I

c = −0.295299 − 0.937240I

d = 0.623699 − 0.729903I

1.47991 + 0.62379I −5.11442 + 0.32782I

u = 1.045080 + 0.368116I

a = 0.475227 + 0.134196I

b = 0.948855 − 0.550324I

c = −0.295299 − 0.937240I

d = 0.623699 − 0.729903I

1.47991 + 0.62379I −5.11442 + 0.32782I

u = 1.045080 − 0.368116I

a = 0.564228 + 0.293694I

b = 0.394500 − 0.725871I

c = −0.295299 + 0.937240I

d = 0.623699 + 0.729903I

1.47991 − 0.62379I −5.11442 − 0.32782I

u = 1.045080 − 0.368116I

a = 0.475227 − 0.134196I

b = 0.948855 + 0.550324I

c = −0.295299 + 0.937240I

d = 0.623699 + 0.729903I

1.47991 − 0.62379I −5.11442 − 0.32782I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.713294 + 0.504864I

a = 0.476506 + 0.077725I

b = 1.044220 − 0.333440I

c = 0.25773 + 1.47872I

d = −0.679626 + 0.385702I

−3.98776 + 3.19845I −13.06265 − 3.08489I

u = 0.713294 + 0.504864I

a = −2.05407 + 2.74671I

b = −1.174610 − 0.233492I

c = 0.25773 + 1.47872I

d = −0.679626 + 0.385702I

−3.98776 + 3.19845I −13.06265 − 3.08489I

u = 0.713294 − 0.504864I

a = 0.476506 − 0.077725I

b = 1.044220 + 0.333440I

c = 0.25773 − 1.47872I

d = −0.679626 − 0.385702I

−3.98776 − 3.19845I −13.06265 + 3.08489I

u = 0.713294 − 0.504864I

a = −2.05407 − 2.74671I

b = −1.174610 + 0.233492I

c = 0.25773 − 1.47872I

d = −0.679626 − 0.385702I

−3.98776 − 3.19845I −13.06265 + 3.08489I

u = 0.413724 + 1.080130I

a = 0.635679 − 0.786411I

b = −0.378327 + 0.769084I

c = −0.137887 − 0.497562I

d = 0.633660 + 0.873788I

1.87781 − 3.59908I −3.00767 + 3.96847I

u = 0.413724 + 1.080130I

a = 0.05598 + 1.74978I

b = −0.981735 − 0.570915I

c = −0.137887 − 0.497562I

d = 0.633660 + 0.873788I

1.87781 − 3.59908I −3.00767 + 3.96847I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.413724 − 1.080130I

a = 0.635679 + 0.786411I

b = −0.378327 − 0.769084I

c = −0.137887 + 0.497562I

d = 0.633660 − 0.873788I

1.87781 + 3.59908I −3.00767 − 3.96847I

u = 0.413724 − 1.080130I

a = 0.05598 − 1.74978I

b = −0.981735 + 0.570915I

c = −0.137887 + 0.497562I

d = 0.633660 − 0.873788I

1.87781 + 3.59908I −3.00767 − 3.96847I

u = −0.511698 + 1.037850I

a = 0.422963 − 0.044547I

b = 1.338330 + 0.246276I

c = −0.851453 + 0.290444I

d = −1.12077 + 1.41710I

−1.31903 + 2.68874I −7.41111 − 2.89622I

u = −0.511698 + 1.037850I

a = −0.14705 − 1.84591I

b = −1.042890 + 0.538322I

c = −0.851453 + 0.290444I

d = −1.12077 + 1.41710I

−1.31903 + 2.68874I −7.41111 − 2.89622I

u = −0.511698 − 1.037850I

a = 0.422963 + 0.044547I

b = 1.338330 − 0.246276I

c = −0.851453 − 0.290444I

d = −1.12077 − 1.41710I

−1.31903 − 2.68874I −7.41111 + 2.89622I

u = −0.511698 − 1.037850I

a = −0.14705 + 1.84591I

b = −1.042890 − 0.538322I

c = −0.851453 − 0.290444I

d = −1.12077 − 1.41710I

−1.31903 − 2.68874I −7.41111 + 2.89622I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −1.060110 + 0.482223I

a = 0.558487 + 0.331278I

b = 0.324518 − 0.785666I

c = −0.126269 + 1.234200I

d = 0.801891 + 0.960827I

0.71766 − 6.15318I −6.72324 + 5.00692I

u = −1.060110 + 0.482223I

a = 0.459428 − 0.125654I

b = 1.025140 + 0.553877I

c = −0.126269 + 1.234200I

d = 0.801891 + 0.960827I

0.71766 − 6.15318I −6.72324 + 5.00692I

u = −1.060110 − 0.482223I

a = 0.558487 − 0.331278I

b = 0.324518 + 0.785666I

c = −0.126269 − 1.234200I

d = 0.801891 − 0.960827I

0.71766 + 6.15318I −6.72324 − 5.00692I

u = −1.060110 − 0.482223I

a = 0.459428 + 0.125654I

b = 1.025140 − 0.553877I

c = −0.126269 − 1.234200I

d = 0.801891 − 0.960827I

0.71766 + 6.15318I −6.72324 − 5.00692I

u = −0.600323 + 1.020000I

a = 0.612638 + 0.649478I

b = −0.231461 − 0.814754I

c = 0.755428 + 0.748346I

d = 1.13345 − 1.05223I

−2.63440 + 6.20108I −10.04876 − 5.89177I

u = −0.600323 + 1.020000I

a = −0.34236 − 1.84493I

b = −1.097230 + 0.523982I

c = 0.755428 + 0.748346I

d = 1.13345 − 1.05223I

−2.63440 + 6.20108I −10.04876 − 5.89177I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.600323 − 1.020000I

a = 0.612638 − 0.649478I

b = −0.231461 + 0.814754I

c = 0.755428 − 0.748346I

d = 1.13345 + 1.05223I

−2.63440 − 6.20108I −10.04876 + 5.89177I

u = −0.600323 − 1.020000I

a = −0.34236 + 1.84493I

b = −1.097230 − 0.523982I

c = 0.755428 − 0.748346I

d = 1.13345 + 1.05223I

−2.63440 − 6.20108I −10.04876 + 5.89177I

u = 0.597289 + 1.062760I

a = 0.419111 + 0.051606I

b = 1.350370 − 0.289408I

c = −1.213230 − 0.187249I

d = −1.51066 − 1.39568I

−2.31683 − 8.24742I −9.43055 + 7.59916I

u = 0.597289 + 1.062760I

a = −0.31098 + 1.76298I

b = −1.097030 − 0.550106I

c = −1.213230 − 0.187249I

d = −1.51066 − 1.39568I

−2.31683 − 8.24742I −9.43055 + 7.59916I

u = 0.597289 − 1.062760I

a = 0.419111 − 0.051606I

b = 1.350370 + 0.289408I

c = −1.213230 + 0.187249I

d = −1.51066 + 1.39568I

−2.31683 + 8.24742I −9.43055 − 7.59916I

u = 0.597289 − 1.062760I

a = −0.31098 − 1.76298I

b = −1.097030 + 0.550106I

c = −1.213230 + 0.187249I

d = −1.51066 + 1.39568I

−2.31683 + 8.24742I −9.43055 − 7.59916I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.329730 + 0.664757I

a = 0.460522 − 0.030841I

b = 1.161750 + 0.144773I

c = 0.263271 − 0.249266I

d = −0.242861 + 0.429341I

−3.05354 + 1.15463I −8.48725 − 5.51426I

u = −0.329730 + 0.664757I

a = 0.74666 − 3.40319I

b = −0.938492 + 0.280347I

c = 0.263271 − 0.249266I

d = −0.242861 + 0.429341I

−3.05354 + 1.15463I −8.48725 − 5.51426I

u = −0.329730 − 0.664757I

a = 0.460522 + 0.030841I

b = 1.161750 − 0.144773I

c = 0.263271 + 0.249266I

d = −0.242861 − 0.429341I

−3.05354 − 1.15463I −8.48725 + 5.51426I

u = −0.329730 − 0.664757I

a = 0.74666 + 3.40319I

b = −0.938492 − 0.280347I

c = 0.263271 + 0.249266I

d = −0.242861 − 0.429341I

−3.05354 − 1.15463I −8.48725 + 5.51426I

u = 0.047497 + 1.362920I

a = 0.362035 − 1.073040I

b = −0.717707 + 0.836690I

c = −1.045080 + 0.054003I

d = −0.534004 + 0.168050I

8.17684 − 3.01120I −1.89563 + 2.75790I

u = 0.047497 + 1.362920I

a = 0.310277 + 1.144270I

b = −0.779261 − 0.814064I

c = −1.045080 + 0.054003I

d = −0.534004 + 0.168050I

8.17684 − 3.01120I −1.89563 + 2.75790I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.047497 − 1.362920I

a = 0.362035 + 1.073040I

b = −0.717707 − 0.836690I

c = −1.045080 − 0.054003I

d = −0.534004 − 0.168050I

8.17684 + 3.01120I −1.89563 − 2.75790I

u = 0.047497 − 1.362920I

a = 0.310277 − 1.144270I

b = −0.779261 + 0.814064I

c = −1.045080 − 0.054003I

d = −0.534004 − 0.168050I

8.17684 + 3.01120I −1.89563 − 2.75790I

u = 0.642257 + 1.206250I

a = 0.508332 − 0.676520I

b = −0.290119 + 0.944754I

c = 0.815617 + 0.201286I

d = 0.92631 + 1.64279I

4.15268 − 6.65019I −3.95665 + 3.46663I

u = 0.642257 + 1.206250I

a = −0.31655 + 1.51284I

b = −1.132510 − 0.633283I

c = 0.815617 + 0.201286I

d = 0.92631 + 1.64279I

4.15268 − 6.65019I −3.95665 + 3.46663I

u = 0.642257 − 1.206250I

a = 0.508332 + 0.676520I

b = −0.290119 − 0.944754I

c = 0.815617 − 0.201286I

d = 0.92631 − 1.64279I

4.15268 + 6.65019I −3.95665 − 3.46663I

u = 0.642257 − 1.206250I

a = −0.31655 − 1.51284I

b = −1.132510 + 0.633283I

c = 0.815617 − 0.201286I

d = 0.92631 − 1.64279I

4.15268 + 6.65019I −3.95665 − 3.46663I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = 0.626561

a = 0.632339 + 0.026645I

b = 0.578626 − 0.066519I

c = 0.191221

d = 0.884921

−1.07873 −7.97520

u = 0.626561

a = 0.632339 − 0.026645I

b = 0.578626 + 0.066519I

c = 0.191221

d = 0.884921

−1.07873 −7.97520

u = −0.532829 + 0.309500I

a = 0.506148 − 0.049944I

b = 0.956655 + 0.193071I

c = 1.018580 − 0.903408I

d = −0.157037 − 0.201603I

−3.17896 + 1.46996I −12.94917 − 3.34118I

u = −0.532829 + 0.309500I

a = −3.92552 − 4.75017I

b = −1.103370 + 0.125091I

c = 1.018580 − 0.903408I

d = −0.157037 − 0.201603I

−3.17896 + 1.46996I −12.94917 − 3.34118I

u = −0.532829 − 0.309500I

a = 0.506148 + 0.049944I

b = 0.956655 − 0.193071I

c = 1.018580 + 0.903408I

d = −0.157037 + 0.201603I

−3.17896 − 1.46996I −12.94917 + 3.34118I

u = −0.532829 − 0.309500I

a = −3.92552 + 4.75017I

b = −1.103370 − 0.125091I

c = 1.018580 + 0.903408I

d = −0.157037 + 0.201603I

−3.17896 − 1.46996I −12.94917 + 3.34118I

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

u = −0.704423 + 1.193170I

a = 0.502880 + 0.645463I

b = −0.248885 − 0.964082I

c = 1.137410 − 0.208123I

d = 1.15191 − 1.72817I

2.99525 + 12.51090I −5.90812 − 8.16035I

u = −0.704423 + 1.193170I

a = −0.40526 − 1.50005I

b = −1.167850 + 0.621297I

c = 1.137410 − 0.208123I

d = 1.15191 − 1.72817I

2.99525 + 12.51090I −5.90812 − 8.16035I

u = −0.704423 − 1.193170I

a = 0.502880 − 0.645463I

b = −0.248885 + 0.964082I

c = 1.137410 + 0.208123I

d = 1.15191 + 1.72817I

2.99525 − 12.51090I −5.90812 + 8.16035I

u = −0.704423 − 1.193170I

a = −0.40526 + 1.50005I

b = −1.167850 − 0.621297I

c = 1.137410 + 0.208123I

d = 1.15191 + 1.72817I

2.99525 − 12.51090I −5.90812 + 8.16035I

III. I

= hc, d + 1, b, a − 1, v

+ v + 1i

(i) Arc colorings















−1





















−1









v + 1







(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v − 11

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u + 1)

, c

+ u + 1

, c

− u + 1

, c

(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 = 1.00000

b = 0

c = 0

d = −1.00000

−1.64493 + 2.02988I −9.00000 − 3.46410I

v = −0.500000 − 0.866025I

a = 1.00000

b = 0

c = 0

d = −1.00000

−1.64493 − 2.02988I −9.00000 + 3.46410I

IV. I

= ha, d + 1, c + a, b − 1, v

+ v + 1i

(i) Arc colorings















−1













−1





−1





−1









v + 1







(ii) Obstruction class = 1

(iii) Cusp Shapes = −4v − 11

(iv) u-Polynomials at the component

Crossings u-Polynomials at each crossing

, c

(u − 1)

, c

(u + 1)

, c

+ u + 1

, c

− 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 = 1.00000

c = 0

d = −1.00000

−1.64493 + 2.02988I −9.00000 − 3.46410I

v = −0.500000 − 0.866025I

a = 0

b = 1.00000

c = 0

d = −1.00000

−1.64493 − 2.02988I −9.00000 + 3.46410I

V. I

= ha, d, c + 1, b − 1, v + 1i

(i) Arc colorings







−1









−1









−1





−1





−1





−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

, c

(vi) Complex Volumes and Cusp Shapes

Solutions to I

√

−1(vol +

√

−1CS) Cusp shape

v = −1.00000

a = 0

b = 1.00000

c = −1.00000

d = 0

−3.28987 −12.0000

VI. I

= ha, d

− dv + 1, v

dc − v

d + · · · + a + v, da − c + 1, c

−

c + · · · + a

+ av, b − 1i

(i) Arc colorings























dv + v





−1





−1





d + 1









d + dv





−1

−d



(ii) Obstruction class = −1

(iii) Cusp Shapes = −d

v + 4dv + v

− 16

(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 −13.38669 + 2.91767I

VII. u-Polynomials

Crossings u-Polynomials at each crossing

, c

(u − 1)

+ 19u

+ ··· + 11u + 1)

(u − 1)

− 5u

+ ··· − 5u + 1)

, c

+ 3u

+ ··· + 64u + 32)

(u + 1)

− 5u

+ ··· − 5u + 1)

(u − 1)(u + 1)

− 5u

+ ··· − 5u + 1)

u(u

+ u + 1)

+ u

+ ··· + 8u + 4)

u(u

− u + 1)

+ 15u

+ ··· + 88u − 16)

u(u

− u + 1)

+ u

+ ··· + 8u + 4)

u(u

+ u + 1)

+ 15u

+ ··· + 88u − 16)

(u − 1)

(u + 1)(u

− 5u

+ ··· − 5u + 1)

VIII. Riley Polynomials

Crossings Riley Polynomials at each crossing

, c

(y − 1)

+ 21y

+ ··· − 117y − 1)

, c

(y − 1)

− 19y

+ ··· + 11y − 1)

, c

+ 15y

+ ··· − 1024y − 1024)

, c

y(y

+ y + 1)

+ 15y

+ ··· + 88y − 16)

, c

y(y

+ y + 1)

+ 27y

+ ··· + 18208y − 256)