9 1: Difference between revisions

Revision as of 20:13, 28 August 2005

Visit 9 1's page at the Knot Server (KnotPlot driven, includes 3D interactive images!)

Visit 9 1's page at the original Knot Atlas!

9_1 should perhaps be called "The Nonafoil Knot", following the trefoil knot, the cinquefoil knot and (maybe) the septafoil knot. The next in the series is K11a367. See also T(9,2).

Interlaced form of 9/2 star polygon or "nonagram"

Decorative interlaced form of 9/2 star polygon or "nonagram"

Alternate interlaced form of 9/2 star polygon or "nonagram"

Knot presentations

Planar diagram presentation	X_1,10,2,11 X_3,12,4,13 X_5,14,6,15 X_7,16,8,17 X_9,18,10,1 X_11,2,12,3 X_13,4,14,5 X_15,6,16,7 X_17,8,18,9
Gauss code	-1, 6, -2, 7, -3, 8, -4, 9, -5, 1, -6, 2, -7, 3, -8, 4, -9, 5
Dowker-Thistlethwaite code	10 12 14 16 18 2 4 6 8
Conway Notation	[9]

Three dimensional invariants

Symmetry type	Reversible
Unknotting number	4
3-genus	4
Bridge index	2
Super bridge index	4
Nakanishi index	1
Maximal Thurston-Bennequin number	[-18][7]
Hyperbolic Volume	Not hyperbolic
A-Polynomial	See Data:9 1/A-polynomial

[edit Notes for 9 1's three dimensional invariants]

Four dimensional invariants

Smooth 4 genus	$4$
Topological 4 genus	$4$
Concordance genus	$4$
Rasmussen s-Invariant	-8

[edit Notes for 9 1's four dimensional invariants]

Polynomial invariants

Alexander polynomial	$t^{4}-t^{3}+t^{2}-t+1-t^{-1}+t^{-2}-t^{-3}+t^{-4}$
Conway polynomial	$z^{8}+7z^{6}+15z^{4}+10z^{2}+1$
2nd Alexander ideal (db, data sources)	$\{1\}$
Determinant and Signature	{ 9, -8 }
Jones polynomial	$q^{-4}+q^{-6}-q^{-7}+q^{-8}-q^{-9}+q^{-10}-q^{-11}+q^{-12}-q^{-13}$
HOMFLY-PT polynomial (db, data sources)	$-z^{6}a^{10}-6z^{4}a^{10}-10z^{2}a^{10}-4a^{10}+z^{8}a^{8}+8z^{6}a^{8}+21z^{4}a^{8}+20z^{2}a^{8}+5a^{8}$
Kauffman polynomial (db, data sources)	$za^{17}+z^{2}a^{16}+z^{3}a^{15}-za^{15}+z^{4}a^{14}-2z^{2}a^{14}+z^{5}a^{13}-3z^{3}a^{13}+za^{13}+z^{6}a^{12}-4z^{4}a^{12}+3z^{2}a^{12}+z^{7}a^{11}-5z^{5}a^{11}+6z^{3}a^{11}-za^{11}+z^{8}a^{10}-7z^{6}a^{10}+16z^{4}a^{10}-14z^{2}a^{10}+4a^{10}+z^{7}a^{9}-6z^{5}a^{9}+10z^{3}a^{9}-4za^{9}+z^{8}a^{8}-8z^{6}a^{8}+21z^{4}a^{8}-20z^{2}a^{8}+5a^{8}$
The A2 invariant	$-q^{38}-q^{36}-q^{34}+q^{22}+q^{20}+2q^{18}+q^{16}+q^{14}$
The G2 invariant	$q^{216}-q^{172}-q^{170}-q^{164}-q^{162}-q^{160}-q^{154}-q^{152}-q^{126}-q^{120}-q^{118}-q^{116}-q^{114}-q^{108}+q^{100}+q^{98}+q^{94}+2q^{92}+2q^{90}+2q^{88}+q^{86}+q^{84}+2q^{82}+2q^{80}+q^{78}+q^{74}+q^{72}+q^{70}$

Further Quantum Invariants

Further quantum knot invariants for 9_1.

A1 Invariants.

Weight	Invariant
1	$-q^{27}+q^{11}+q^{9}+q^{7}$
2	$q^{72}-q^{56}-q^{54}-q^{52}+q^{22}+q^{20}+q^{18}+q^{16}+q^{14}$
3	$-q^{135}+q^{119}+q^{117}+q^{115}-q^{85}-q^{83}-q^{81}-q^{79}-q^{77}+q^{33}+q^{31}+q^{29}+q^{27}+q^{25}+q^{23}+q^{21}$
4	$q^{216}-q^{200}-q^{198}-q^{196}+q^{166}+q^{164}+q^{162}+q^{160}+q^{158}-q^{114}-q^{112}-q^{110}-q^{108}-q^{106}-q^{104}-q^{102}+q^{44}+q^{42}+q^{40}+q^{38}+q^{36}+q^{34}+q^{32}+q^{30}+q^{28}$
5	$-q^{315}+q^{299}+q^{297}+q^{295}-q^{265}-q^{263}-q^{261}-q^{259}-q^{257}+q^{213}+q^{211}+q^{209}+q^{207}+q^{205}+q^{203}+q^{201}-q^{143}-q^{141}-q^{139}-q^{137}-q^{135}-q^{133}-q^{131}-q^{129}-q^{127}+q^{55}+q^{53}+q^{51}+q^{49}+q^{47}+q^{45}+q^{43}+q^{41}+q^{39}+q^{37}+q^{35}$
6	$q^{432}-q^{416}-q^{414}-q^{412}+q^{382}+q^{380}+q^{378}+q^{376}+q^{374}-q^{330}-q^{328}-q^{326}-q^{324}-q^{322}-q^{320}-q^{318}+q^{260}+q^{258}+q^{256}+q^{254}+q^{252}+q^{250}+q^{248}+q^{246}+q^{244}-q^{172}-q^{170}-q^{168}-q^{166}-q^{164}-q^{162}-q^{160}-q^{158}-q^{156}-q^{154}-q^{152}+q^{66}+q^{64}+q^{62}+q^{60}+q^{58}+q^{56}+q^{54}+q^{52}+q^{50}+q^{48}+q^{46}+q^{44}+q^{42}$
8	$q^{720}-q^{704}-q^{702}-q^{700}+q^{670}+q^{668}+q^{666}+q^{664}+q^{662}-q^{618}-q^{616}-q^{614}-q^{612}-q^{610}-q^{608}-q^{606}+q^{548}+q^{546}+q^{544}+q^{542}+q^{540}+q^{538}+q^{536}+q^{534}+q^{532}-q^{460}-q^{458}-q^{456}-q^{454}-q^{452}-q^{450}-q^{448}-q^{446}-q^{444}-q^{442}-q^{440}+q^{354}+q^{352}+q^{350}+q^{348}+q^{346}+q^{344}+q^{342}+q^{340}+q^{338}+q^{336}+q^{334}+q^{332}+q^{330}-q^{230}-q^{228}-q^{226}-q^{224}-q^{222}-q^{220}-q^{218}-q^{216}-q^{214}-q^{212}-q^{210}-q^{208}-q^{206}-q^{204}-q^{202}+q^{88}+q^{86}+q^{84}+q^{82}+q^{80}+q^{78}+q^{76}+q^{74}+q^{72}+q^{70}+q^{68}+q^{66}+q^{64}+q^{62}+q^{60}+q^{58}+q^{56}$

A2 Invariants.

Weight	Invariant
1,0	$-q^{38}-q^{36}-q^{34}+q^{22}+q^{20}+2q^{18}+q^{16}+q^{14}$
1,1	$q^{108}-2q^{60}-2q^{58}-4q^{56}-4q^{54}-4q^{52}-2q^{50}-2q^{48}+q^{44}+2q^{42}+4q^{40}+4q^{38}+5q^{36}+4q^{34}+4q^{32}+2q^{30}+q^{28}$
2,0	$q^{94}+q^{92}+2q^{90}+q^{88}+q^{86}-q^{78}-2q^{76}-3q^{74}-3q^{72}-3q^{70}-2q^{68}-q^{66}+q^{44}+q^{42}+2q^{40}+2q^{38}+3q^{36}+2q^{34}+2q^{32}+q^{30}+q^{28}$

A3 Invariants.

Weight	Invariant
0,1,0	$q^{90}-q^{60}-2q^{58}-3q^{56}-3q^{54}-3q^{52}-2q^{50}-q^{48}+q^{44}+q^{42}+3q^{40}+3q^{38}+4q^{36}+3q^{34}+3q^{32}+q^{30}+q^{28}$
1,0,0	$-q^{49}-q^{47}-2q^{45}-q^{43}-q^{41}+q^{33}+q^{31}+2q^{29}+2q^{27}+2q^{25}+q^{23}+q^{21}$
1,0,1	$q^{144}+q^{98}+q^{96}+3q^{94}+3q^{92}+4q^{90}+3q^{88}+3q^{86}+q^{84}-q^{82}-4q^{80}-8q^{78}-10q^{76}-14q^{74}-14q^{72}-14q^{70}-10q^{68}-7q^{66}-2q^{64}+3q^{62}+7q^{60}+10q^{58}+11q^{56}+12q^{54}+11q^{52}+10q^{50}+7q^{48}+5q^{46}+2q^{44}+q^{42}$

A4 Invariants.

Weight	Invariant
0,1,0,0	$q^{112}+q^{110}+q^{108}+q^{106}+q^{104}-q^{82}-2q^{80}-4q^{78}-5q^{76}-7q^{74}-7q^{72}-7q^{70}-5q^{68}-3q^{66}-q^{64}+2q^{62}+4q^{60}+6q^{58}+6q^{56}+8q^{54}+6q^{52}+6q^{50}+4q^{48}+3q^{46}+q^{44}+q^{42}$
1,0,0,0	$-q^{60}-q^{58}-2q^{56}-2q^{54}-2q^{52}-q^{50}-q^{48}+q^{44}+q^{42}+2q^{40}+2q^{38}+3q^{36}+2q^{34}+2q^{32}+q^{30}+q^{28}$

B2 Invariants.

Weight	Invariant
0,1	$-q^{90}-q^{60}-q^{56}-q^{54}-q^{52}-q^{48}+q^{44}+q^{42}+q^{40}+q^{38}+2q^{36}+q^{34}+q^{32}+q^{30}+q^{28}$
1,0	$q^{144}-q^{98}-q^{96}-q^{94}-q^{92}-2q^{90}-q^{88}-q^{86}-q^{84}-q^{82}+q^{66}+q^{62}+q^{60}+2q^{58}+q^{56}+2q^{54}+q^{52}+2q^{50}+q^{48}+q^{46}+q^{42}$

D4 Invariants.

Weight

Invariant

0,1,0,0

q^{216}-q^{172}-q^{170}-3q^{168}-3q^{166}-4q^{164}-4q^{162}-4q^{160}-3q^{158}+2q^{154}+5q^{152}+9q^{150}+12q^{148}+12q^{146}+15q^{144}+12q^{142}+12q^{140}+9q^{138}+6q^{136}+3q^{134}+3q^{132}-q^{126}-3q^{124}-6q^{122}-10q^{120}-16q^{118}-22q^{116}-28q^{114}-33q^{112}-36q^{110}-37q^{108}-33q^{106}-27q^{104}-18q^{102}-8q^{100}+4q^{98}+12q^{96}+22q^{94}+26q^{92}+29q^{90}+29q^{88}+28q^{86}+22q^{84}+20q^{82}+14q^{80}+10q^{78}+6q^{76}+4q^{74}+q^{72}+q^{70}

1,0,0,0

q^{126}-q^{82}-q^{80}-3q^{78}-3q^{76}-4q^{74}-4q^{72}-4q^{70}-3q^{68}-2q^{66}+q^{62}+3q^{60}+4q^{58}+4q^{56}+5q^{54}+4q^{52}+4q^{50}+3q^{48}+2q^{46}+q^{44}+q^{42}

G2 Invariants.

Weight	Invariant
1,0	$q^{216}-q^{172}-q^{170}-q^{164}-q^{162}-q^{160}-q^{154}-q^{152}-q^{126}-q^{120}-q^{118}-q^{116}-q^{114}-q^{108}+q^{100}+q^{98}+q^{94}+2q^{92}+2q^{90}+2q^{88}+q^{86}+q^{84}+2q^{82}+2q^{80}+q^{78}+q^{74}+q^{72}+q^{70}$

.

Computer Talk

The above data is available with the Mathematica package KnotTheory`, as shown in the (simulated) Mathematica session below. Your input (in red) is realistic; all else should have the same content as in a real mathematica session, but with different formatting. This Mathematica session is also available (albeit only for the knot 5_2) as the notebook PolynomialInvariantsSession.nb.

(The path below may be different on your system, and possibly also the KnotTheory` date)

In[1]:= AppendTo[$Path, "C:/drorbn/projects/KAtlas/"]; << KnotTheory`

Loading KnotTheory` version of August 31, 2006, 11:25:27.5625.

In[3]:= K = Knot["9 1"];

In[4]:= Alexander[K][t]

KnotTheory::loading: Loading precomputed data in PD4Knots`.

Out[4]= $t^{4}-t^{3}+t^{2}-t+1-t^{-1}+t^{-2}-t^{-3}+t^{-4}$

In[5]:= Conway[K][z]

Out[5]= $z^{8}+7z^{6}+15z^{4}+10z^{2}+1$

In[6]:= Alexander[K, 2][t]

KnotTheory::credits: The program Alexander[K, r] to compute Alexander ideals was written by Jana Archibald at the University of Toronto in the summer of 2005.

Out[6]= $\{1\}$

In[7]:= {KnotDet[K], KnotSignature[K]}

Out[7]= { 9, -8 }

In[8]:= Jones[K][q]

KnotTheory::loading: Loading precomputed data in Jones4Knots`.

Out[8]= $q^{-4}+q^{-6}-q^{-7}+q^{-8}-q^{-9}+q^{-10}-q^{-11}+q^{-12}-q^{-13}$

In[9]:= HOMFLYPT[K][a, z]

KnotTheory::credits: The HOMFLYPT program was written by Scott Morrison.

Out[9]= $-z^{6}a^{10}-6z^{4}a^{10}-10z^{2}a^{10}-4a^{10}+z^{8}a^{8}+8z^{6}a^{8}+21z^{4}a^{8}+20z^{2}a^{8}+5a^{8}$

In[10]:= Kauffman[K][a, z]

KnotTheory::loading: Loading precomputed data in Kauffman4Knots`.

Out[10]= $za^{17}+z^{2}a^{16}+z^{3}a^{15}-za^{15}+z^{4}a^{14}-2z^{2}a^{14}+z^{5}a^{13}-3z^{3}a^{13}+za^{13}+z^{6}a^{12}-4z^{4}a^{12}+3z^{2}a^{12}+z^{7}a^{11}-5z^{5}a^{11}+6z^{3}a^{11}-za^{11}+z^{8}a^{10}-7z^{6}a^{10}+16z^{4}a^{10}-14z^{2}a^{10}+4a^{10}+z^{7}a^{9}-6z^{5}a^{9}+10z^{3}a^{9}-4za^{9}+z^{8}a^{8}-8z^{6}a^{8}+21z^{4}a^{8}-20z^{2}a^{8}+5a^{8}$

Vassiliev invariants

V₂ and V₃:

(10, -30)

V_2,1 through V_6,9:

V_2,1

V_3,1

V_4,1

V_4,2

V_4,3

V_5,1

V_5,2

V_5,3

V_5,4

V_6,1

V_6,2

V_6,3

V_6,4

V_6,5

V_6,6

V_6,7

V_6,8

V_6,9

40

-240

800

{\frac {5660}{3}}

{\frac {820}{3}}

-9600

-16448

-2912

-1968

{\frac {32000}{3}}

28800

{\frac {226400}{3}}

{\frac {32800}{3}}

{\frac {440263}{3}}

{\frac {20516}{3}}

{\frac {474988}{9}}

{\frac {6637}{9}}

{\frac {19927}{3}}

V_2,1 through V_6,9 were provided by Petr Dunin-Barkowski <barkovs@itep.ru>, Andrey Smirnov <asmirnov@itep.ru>, and Alexei Sleptsov <sleptsov@itep.ru> and uploaded on October 2010 by User:Drorbn. Note that they are normalized differently than V₂ and V₃.

Khovanov Homology

The coefficients of the monomials

t^{r}q^{j}

are shown, along with their alternating sums

\chi

(fixed

j

, alternation over

r

). The squares with yellow highlighting are those on the "critical diagonals", where

j-2r=s+1

or

j-2r=s-1

, where

s=

-8 is the signature of 9 1. Nonzero entries off the critical diagonals (if any exist) are highlighted in red.

\		r
	\
j		\

-9

-8

-7

-6

-5

-4

-3

-2

-1

0

χ

-7

1

-9

1

-11

1

-13

0

-15

1

0

-17

0

-19

1

0

-21

0

-23

1

0

-25

0

-27

1

-1

Integral Khovanov Homology

(db, data source)

$\dim {\mathcal {G}}_{2r+i}\operatorname {KH} _{\mathbb {Z} }^{r}$	$i=-9$	$i=-7$
$r=-9$	${\mathbb {Z} }$
$r=-8$	${\mathbb {Z} }_{2}$	${\mathbb {Z} }$
$r=-7$	${\mathbb {Z} }$
$r=-6$	${\mathbb {Z} }_{2}$	${\mathbb {Z} }$
$r=-5$	${\mathbb {Z} }$
$r=-4$	${\mathbb {Z} }_{2}$	${\mathbb {Z} }$
$r=-3$	${\mathbb {Z} }$
$r=-2$	${\mathbb {Z} }_{2}$	${\mathbb {Z} }$
$r=-1$
$r=0$	${\mathbb {Z} }$	${\mathbb {Z} }$

Computer Talk

Much of the above data can be recomputed by Mathematica using the package KnotTheory`. See A Sample KnotTheory` Session.

${\textrm {Include}}({\textrm {ColouredJonesM.mhtml}})$

In[1]:=	<< KnotTheory`
Loading KnotTheory` (version of August 17, 2005, 14:44:34)...
In[2]:=	Crossings[Knot[9, 1]]
Out[2]=	9
In[3]:=	PD[Knot[9, 1]]
Out[3]=	PD[X[1, 10, 2, 11], X[3, 12, 4, 13], X[5, 14, 6, 15], X[7, 16, 8, 17], X[9, 18, 10, 1], X[11, 2, 12, 3], X[13, 4, 14, 5], X[15, 6, 16, 7], X[17, 8, 18, 9]]
In[4]:=	GaussCode[Knot[9, 1]]
Out[4]=	GaussCode[-1, 6, -2, 7, -3, 8, -4, 9, -5, 1, -6, 2, -7, 3, -8, 4, -9, 5]
In[5]:=	BR[Knot[9, 1]]
Out[5]=	BR[2, {-1, -1, -1, -1, -1, -1, -1, -1, -1}]
In[6]:=	alex = Alexander[Knot[9, 1]][t]
Out[6]=	-4 -3 -2 1 2 3 4 1 + t - t + t - - - t + t - t + t t
In[7]:=	Conway[Knot[9, 1]][z]
Out[7]=	2 4 6 8 1 + 10 z + 15 z + 7 z + z
In[8]:=	Select[AllKnots[], (alex === Alexander[#][t])&]
Out[8]=	{Knot[9, 1]}
In[9]:=	{KnotDet[Knot[9, 1]], KnotSignature[Knot[9, 1]]}
Out[9]=	{9, -8}
In[10]:=	J=Jones[Knot[9, 1]][q]
Out[10]=	-13 -12 -11 -10 -9 -8 -7 -6 -4 -q + q - q + q - q + q - q + q + q
In[11]:=	Select[AllKnots[], (J === Jones[#][q] \|\| (J /. q-> 1/q) === Jones[#][q])&]
Out[11]=	{Knot[9, 1]}
In[12]:=	A2Invariant[Knot[9, 1]][q]
Out[12]=	-38 -36 -34 -22 -20 2 -16 -14 -q - q - q + q + q + --- + q + q 18 q
In[13]:=	Kauffman[Knot[9, 1]][a, z]
Out[13]=	8 10 9 11 13 15 17 8 2 5 a + 4 a - 4 a z - a z + a z - a z + a z - 20 a z - 10 2 12 2 14 2 16 2 9 3 11 3 14 a z + 3 a z - 2 a z + a z + 10 a z + 6 a z - 13 3 15 3 8 4 10 4 12 4 14 4 3 a z + a z + 21 a z + 16 a z - 4 a z + a z - 9 5 11 5 13 5 8 6 10 6 12 6 9 7 6 a z - 5 a z + a z - 8 a z - 7 a z + a z + a z + 11 7 8 8 10 8 a z + a z + a z
In[14]:=	{Vassiliev[2][Knot[9, 1]], Vassiliev[3][Knot[9, 1]]}
Out[14]=	{0, -30}
In[15]:=	Kh[Knot[9, 1]][q, t]
Out[15]=	-9 -7 1 1 1 1 1 1 q + q + ------ + ------ + ------ + ------ + ------ + ------ + 27 9 23 8 23 7 19 6 19 5 15 4 q t q t q t q t q t q t 1 1 ------ + ------ 15 3 11 2 q t q t

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+<!-- -->
+<!--  -->
+<!-- -->
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+<!-- -->
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 {{Knot Navigation Links|ext=gif}}
+{{Rolfsen Knot Page Header|n=9|k=1|KnotilusURL=http://srankin.math.uwo.ca/cgi-bin/retrieve.cgi/-1,6,-2,7,-3,8,-4,9,-5,1,-6,2,-7,3,-8,4,-9,5/goTop.html}}
-{| align=left
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-|[[Image:{{PAGENAME}}.gif]]
-|{{Rolfsen Knot Site Links|n=9|k=1|KnotilusURL=http://srankin.math.uwo.ca/cgi-bin/retrieve.cgi/-1,6,-2,7,-3,8,-4,9,-5,1,-6,2,-7,3,-8,4,-9,5/goTop.html}}
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 {{Vassiliev Invariants}}
-===[[Khovanov Homology]]===
+{{Khovanov Homology|table=<table border=1>
-The coefficients of the monomials <math>t^rq^j</math> are shown, along with their alternating sums <math>\chi</math> (fixed <math>j</math>, alternation over <math>r</math>). The squares with <font class=HLYellow>yellow</font> highlighting are those on the "critical diagonals", where <math>j-2r=s+1</math> or <math>j-2r=s+1</math>, where <math>s=</math>{{Data:{{PAGENAME}}/Signature}} is the signature of {{PAGENAME}}. Nonzero entries off the critical diagonals (if any exist) are highlighted in <font class=HLRed>red</font>.
-<center><table border=1>
 <tr align=center>
 <td width=14.2857%><table cellpadding=0 cellspacing=0>
@@ Line 47: / Line 40: @@
 <tr align=center><td>-25</td><td bgcolor=yellow>&nbsp;</td><td bgcolor=yellow>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>0</td></tr>
 <tr align=center><td>-27</td><td bgcolor=yellow>1</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>&nbsp;</td><td>-1</td></tr>
-</table></center>
+</table>}}
 {{Computer Talk Header}}
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   q   t    q   t</nowiki></pre></td></tr>
 </table>
+ [[Category:Knot Page]]

9 1: Difference between revisions

Revision as of 20:13, 28 August 2005

Contents

Knot presentations

Three dimensional invariants

Four dimensional invariants

Polynomial invariants

Vassiliev invariants

Khovanov Homology

Computer Talk

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