Abstract
Twistor string models have been known for more than a decade now but have come back under the spotlight recently with the advent of the scattering equation formalism which has greatly generalized the scope of these models. A striking ubiquitous feature of these models has always been that, contrary to usual string theory, they do not admit vibrational modes and thus describe only conventional field theory. In this paper we report on the surprising discovery of a whole new sector of one of these theories which we call "twisted strings," when spacetime has compact directions. We find that the spectrum is enhanced from a finite number of states to an infinite number of interacting higher spin massive states. We describe both bosonic and world sheet supersymmetric models, their spectra and scattering amplitudes. These models have distinctive features of both string and field theory, for example they are invariant under stringy T-duality but have the high energy behavior typical of field theory. Therefore they describe a new kind of field theories in target space, sitting on their own halfway between string and field theory.
Highlights
String theories based on Penrose’s twistor theory have lead to a revolution in our understanding of the S-matrix of quantum field theory [1]
In the field of scattering amplitudes, the recent introduction of the “scattering equations formalism” [2,3,4] lead to the discovery of the ambitwistor string, which in turn lead to advances which were out of reach of the previous twistor methods
The idea is that the ambitwistor string arises in the tensionless limit of the twisted string [12,13,14,15,16]
Summary
String theories based on Penrose’s twistor theory have lead to a revolution in our understanding of the S-matrix of quantum field theory [1]. The main result of this paper is the following: While in flat space the twisted type II string describes gravity only, in spacetimes with different topologies, where the string can wind around compact dimensions, an infinite tower of massive states arises. This twisted string theory remains distinct from usual string theory, as we explain below, and describes the new type of theories halfway between string and field theory. This gives new scattering-equation like formulas for winding states which include higher-spin states
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