Loop
Variables for General Relativity| Loop
Variables for General Relativity |
In General > s.a. kaluza-klein.
* Idea: A formulation based on a set of variables inspired by the
loop states for canonical quantum gravity.
* Small T-algebra: The Wilson
loop configuration variables and the momentum variables for a loop C are,
respectively,
TC(A):= 
tr
P exp{
C A}
, T a[
](s):=
tr[P exp{C A}
Ea((s))]
.
* Smeared momentum variables:
TS(A):= 
S
dSab 
abcT cC{·,
tau)(
,
), where T aC{·,
tau) :=
tr hC{·, tau)(,)[A]
Ea((,))
.
* Full T-algebra: Defined by
T ab[C](s,s'):= tr
[P exp{s's A} Ea(C(s))
P exp{ss' A}
Eb(C(s'))]
,
and similarly for a higher number of indices.
> In quantum gravity:
see loop representation; 3D quantum gravity.
References > s.a. supergravity.
@ General: Mensky in(84)?; Rovelli & Smolin PRL(88),
NPB(90);
Manojlovic
CQG(90);
Goldberg et al CMP(92),
Boström CQG(92) [degeneracy in small algebra]; Loll CQG(93)gq [inequalities
on traces of holonomies].
@ With holonomy of metric connection: Refs in Bezerra & Letelier CQG(91).
@ Similar variables: Barrett GRG(89)
[Lorentz group holonomies]; Newman & Rovelli PRL(92)
[lines of force].
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Send feedback and suggestions to bombelli at olemiss.edu – Modified
29 oct 2007