Ultrafast modulations in stellar, solar and galactic spectra: Dark Matter and numerical ghosts, stellar flares and SETI

Abstract

From new results presented in the literature we discuss the hypothesis that the ultrafast periodic spectral modulations at fS 0.607 THz found in the spectra of 236 stars of the Sloan Digital Sky Survey (SDSS) [1] were due to oscillations induced by dark matter (DM) cores in their centers [2] behaving as oscillating boson stars [3,4]. Two additional frequencies in the redshift-corrected SDSS galactic spectra were found [5], f1,G 9.5 THz, the beating between fS and a spurious frequency, f2,G 8.9 THz, introduced during the data analysis [6]. The indication that fS can be real is its detection in a real solar spectrum but not in the Kurucz's artificial solar spectrum [6,7,8]. Then, independent SETI observations of four of these stars could not confirm with high confidence, but not completely exclude, the presence of fS in their power spectra [9] while the radio SETI deep-learning analysis with artificial intelligence confirmed indirectly fS detecting a narrowband Doppler drifting of radio signals in two of these stars over a sample of 7 with a high S/N [10]. Numerical simulations suggest that the drifting can be due to frequency and phase modulation in time of the observed frequencies at 1.3-1.7 GHz with fS. This would imply a DM upper mass limit ma 2.4 × 103~ μ eV [2] which also agrees with the results from the gamma ray burst GRB221009A [11,12,13], laser interferometry [14], suggesting new physics for the muon g-2 anomaly [15].