Volume conjecture explained

Volume conjecture
Field:	Knot theory
Conjectured By:	Hitoshi Murakami Jun Murakami Rinat Kashaev
Known Cases:	figure-eight knot three-twist knot Borromean rings torus knots all knots and links with volume zero twisted Whitehead links Whitehead doubles of nontrivial torus knots T(p,q) with q=2
Consequences:	Vassiliev invariants detect the unknot

In the branch of mathematics called knot theory, the volume conjecture is an open problem that relates quantum invariants of knots to the hyperbolic geometry of their complements.

Statement

Let O denote the unknot. For any knot

, let

\langleK\rangle_N

be the Kashaev invariant of

, which may be defined as

\langleK\rangle_N=\lim


	q\toe^2\pi

	J_K,N(q)
	J_O,N(q)

where

J_K,N(q)

is the

-Colored Jones polynomial of

. The volume conjecture states that

\lim_N\toinfty

	2\pilog\|\langleK\rangle_N\|
	N

=\operatorname{vol}(S³\backslashK)

where

\operatorname{vol}(S³\backslashK)

is the simplicial volume of the complement of

in the 3-sphere, defined as follows. By the JSJ decomposition, the complement

S³\backslashK

may be uniquely decomposed into a system of tori

S³\backslashK=\left(sqcup_iH_i\right)\sqcup\left(sqcup_jE_j\right)

with

H_i

hyperbolic and

E_j

Seifert-fibered. The simplicial volume

\operatorname{vol}(S³\backslashK)

is then defined as the sum

\operatorname{vol}(S³\backslashK)=\sum_i\operatorname{vol}(H_i)

where

\operatorname{vol}(H_i)

is the hyperbolic volume of the hyperbolic manifold

H_i

As a special case, if

is a hyperbolic knot, then the JSJ decomposition simply reads

S³\backslashK=H₁

, and by definition the simplicial volume

\operatorname{vol}(S³\backslashK)

agrees with the hyperbolic volume

\operatorname{vol}(H₁₎

History

The Kashaev invariant was first introduced by Rinat M. Kashaev in 1994 and 1995 for hyperbolic links as a state sum using the theory of quantum dilogarithms.^[1] ^[2] Kashaev stated the formula of the volume conjecture in the case of hyperbolic knots in 1997.^[3]

pointed out that the Kashaev invariant is related to the colored Jones polynomial by replacing the variable

with the root of unity

e^i\pi/N

. They used an R-matrix as the discrete Fourier transform for the equivalence of these two descriptions. This paper was the first to state the volume conjecture in its modern form using the simplicial volume. They also prove that the volume conjecture implies the following conjecture of Victor Vasiliev:

If all Vassiliev invariants of a knot agree with those of the unknot, then the knot is the unknot.The key observation in their proof is that if every Vassiliev invariant of a knot

is trivial, then

J_K,N(q)=1

for any

Status

The volume conjecture is open for general knots, and it is known to be false for arbitrary links. The volume conjecture has been verified in many special cases, including:

The figure-eight knot (Tobias Ekholm),
The three-twist knot (Rinat Kashaev and Yoshiyuki Yokota),
The Borromean rings (Stavros Garoufalidis and Thang Le),
Torus knots (Rinat Kashaev and Olav Tirkkonen),
All knots and links with volume zero (Roland van der Veen),
Twisted Whitehead links (Hao Zheng),
Whitehead doubles of nontrivial torus knots

T(p,q)

with

q=2

(Hao Zheng).

Relation to Chern-Simons theory

Using complexification, proved that for a hyperbolic knot

\lim_N\toinfty

	2\pilog\langleK\rangle_N
	N

=\operatorname{vol}(S^3\backslashK)+CS(S^3\backslashK)

where

is the Chern–Simons invariant. They established a relationship between the complexified colored Jones polynomial and Chern–Simons theory.

References

Sources

Murakami . Hitoshi . An Introduction to the Volume Conjecture . 2010 . math.GT . 1002.0126 . .
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Notes and References

Kashaev . R.M. . 1994-12-28 . Quantum Dilogarithm as a 6j-Symbol . . en . 09 . 40 . 3757–3768 . 10.1142/S0217732394003610 . hep-th/9411147 . 1994MPLA....9.3757K . 0217-7323.
Kashaev . R.M. . 1995-06-21 . A Link Invariant from Quantum Dilogarithm . Modern Physics Letters A . en . 10 . 19 . 1409–1418 . 10.1142/S0217732395001526 . q-alg/9504020 . 1995MPLA...10.1409K . 0217-7323.
Kashaev . R. M. . 1997 . The Hyperbolic Volume of Knots from the Quantum Dilogarithm . . 39 . 3 . 269–275 . 10.1023/A:1007364912784. q-alg/9601025 . 1997LMaPh..39..269K .