Journal of Theoretical Physics & Mathematics Research
ISSN: 3065-8802 | DOI: 10.64030/3065-8802
Manoochehr (Mano) Fonooni
The Fonooni Temporal Field Theory (FTFT) predicts gravitational wave (GW) echoes at 1387 Hz from black hole mergers, driven by a temporal scalar field �?T (m�?T ∼ 150 GeV, coupling gT ∼ 0.18). The field couples to the energy-momentum tensor and graviton via −gT �?T Tµνhµν , creating a reflective boundary (“temporal firewall”) at �??r ∼ 10−14 m near black hole horizons. This boundary reflects GWs with a delay of �??teffective 1.5 fs, yielding a 1387 Hz echo frequency after redshift corrections. Enhanced by Loop Quantum Gravity (LQG) and embedded in Heterotic String Theory, FTFT’s echoes are detectable by LIGO A+ (2026) with an SNR of 5–10 for 60M�?? mergers at 400 Mpc. This paper details the mechanism, distinguishing FTFT from fuzzball and wormhole models, and supports the FTFT framework submitted to the Journal of Theoretical Physics & Mathematics Research.