Macroscopic Black-Hole Remnants in a Nonlocal Field Theory: Towards Hawking Radiation in SFT

Abstract

We demonstrate that, for a large black hole of radius a, Hawking radiation terminates around the scrambling time uscr 2a (a/) due to the nonlocal, exponential suppression of trans-Planckian interactions inherent in string field theory (SFT). Modifying a massless scalar field's interaction with a dynamical black hole background via the smearing operator e^2 (where denotes the string length scale), we calculate the time-dependent number expectation value N(u) of outgoing Hawking particles at retarded time u. While the standard Planck spectrum at the Hawking temperature is reproduced at early times (u uscr), the particle number approaches zero shortly after the scrambling time. This early shutoff reflects the property that the collapsing shell becomes effectively invisible to trans-Planckian modes, offering an alternative resolution to the black hole information paradox via a macroscopic remnant.