We study the implication of decoupling zero-norm states in the high-energy limit, for the 26 dimensional bosonic open string theory. Infinitely many linear relations among 4-point functions are derived algebraically, and their unique solution is found. Equivalent results are also obtained by taking the high-energy limit of Virasoro constraints, and as an independent check, we compute all 4-point functions of 3 tachyons and an arbitrary massive state by saddle-point approximation.
High-energy limit of zero-norm states in the old covariant first quantized spectrum of the 26D open bosonic string, together with the assumption of a smooth behavior of string theory in this limit, are used to derive infinitely many linear relations among the leading high-energy, fixed-angle behavior of four-point functions of different string states. As a result, ratios among all high-energy scattering amplitudes of four arbitrary string states can be calculated algebraically and the leading order amplitudes can be expressed in terms of that of four tachyons as conjectured by Gross in 1988. A dual calculation can also be performed and equivalent results are obtained by taking the high-energy limit of Virasoro constraints. Finally, we compute all high-energy scattering amplitudes of three tachyons and one massive state at the leading order by saddle-point approximation to verify our results.
In previous works, ratios among four-point scattering amplitudes at the
leading order in the high-energy limit were derived for the bosonic open string
theory. The derivation was based on Ward identities derived from the decoupling
of zero-norm states and was purely algebraic. The only assumption of the
derivation was that the momentum polarization can be approximated by the
longitudinal polarization at high energies. In this paper, using the decoupling
of spurious states, we reduce this assumption to a much weaker one which can be
easily verified by simple power counting in most cases. For the special cases
which are less obvious, we verify the new assumption for an example by
saddle-point approximation. We also provide a new perspective to our previous
results in terms of DDF states. In particular, we show that, by using DDF
states, one can easily see that there is only one independent high energy
scattering amplitude for each fixed mass level.Comment: 14 pages, no figur
We show that the degenerate positive-norm physical propagating fields of the open bosonic string can be gauged to the higher rank fields at the same mass level. As a result, their scattering amplitudes can be determined from those of the higher spin fields. This phenomenon arises from the existence of two types of zero-norm states with the same Young representations as those of the degenerate positive-norm states in the old covariant first quantized (OCFQ) spectrum. This is demonstrated by using the lowest order gauge transformation of Witten's string field theory (WSFT) up to the fourth massive level (spin-five), and is found to be consistent with conformal field theory calculation based on the first quantized generalized sigma-model approach. In particular, on-shell conditions of zero-norm states in OCFQ stringy gauge transformation are found to correspond, in a one-to-one manner, to the background ghost fields in off-shell gauge transformation of WSFT. The implication of decoupling of scalar modes on Sen's conjectures was also briefly discussed. *
In the search of YM instanton sheaves with topological charge two, the rank of β matrix in the monad construction can be dropped from the bundle case with rank β= 2 to either rank β= 1 [4] or 0 on some points of CP 3 of the sheaf cases. In this paper, we first show that the sheaf case with rank β= 0 does not exist for the previous construction of SU (2) complex YM instantons [3]. We then show that in the new "extended complex YM instantons" discovered in this paper, rank β can be either 2 on the whole CP 3 (bundle) with some given ADHM data or 1, 0 on some points of CP 3 with other ADHM data (sheaves). These extended SU (2) complex YM instantons have no real instanton counterparts. * Electronic address:
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