Thiemann T (2006)
Publication Status: Published
Publication Type: Journal article
Publication year: 2006
Publisher: IOP PUBLISHING LTD
Book Volume: 23
Pages Range: 1923-1970
Journal Issue: 6
DOI: 10.1088/0264-9381/23/6/007
We combine (i) background-independent loop quantum gravity (LQG) quantization techniques, (ii) the mathematically rigorous framework of algebraic quantum field theory (AQFT) and (iii) the theory of integrable systems resulting in the invariant Pohlmeyer charges in order to set up the general representation theory (superselection theory) for the closed bosonic quantum string on flat target space. While we do not solve the, expectedly, rich representation theory completely, we present a, to the best of our knowledge, new, non-trivial solution to the representation problem. This solution exists (1) for any target space dimension, (2) for Minkowski signature of the target space, (3) without tachyons, (4) manifestly ghost free (no negative norm states), (5) without fixing a worldsheet or target space gauge, (6) without (Virasoro) anomalies (zero central charge), (7) while preserving manifest target space Poincare invariance and (8) without picking up UV divergences. The existence of this stable solution is, on one hand, exciting because it raises the hope that among all the solutions to the representation problem (including fermionic degrees of freedom) we find stable, phenomenologically acceptable ones in lower dimensional target spaces, possibly without supersymmetry, that are much simpler than the solutions that arise via compactification of the standard Fock representation of the string. On the other hand, if such solutions are found, then this would prove that neither a critical dimension (D = 10, 11, 26) nor supersymmetry is a prediction of string theory. Rather, these would be features of the particular Fock representation of current string theory and hence would not be generic. The solution presented in this paper exploits the flatness of the target space in several important ways. In a companion paper, we treat the more complicated case of curved target spaces.
APA:
Thiemann, T. (2006). The LQG string - loop quantum gravity quantization of string theory: I. Flat target space. Classical and Quantum Gravity, 23(6), 1923-1970. https://dx.doi.org/10.1088/0264-9381/23/6/007
MLA:
Thiemann, Thomas. "The LQG string - loop quantum gravity quantization of string theory: I. Flat target space." Classical and Quantum Gravity 23.6 (2006): 1923-1970.
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