Multifrequency behavior of classical novae

Abstract: We review our current understanding of multiwavelength light curves of classical and recurrent novae and show how to determine the WD masses and other binary properties. We pick up PW Vul, U Sco, V745 Sco, RS Oph, and V407 Cyg as representatives of different types of light curves, examine their light curves in detail, discuss physical properties, and clarify the reason of these differences. In the rising phase, the hydrogen-rich envelope expands beyond the size of a close binary in which the companion is embed… Show more

“…Its outburst spectrum showed high-energy He II lines and a FWHM velocity of 10,000 km s −1 (Lynch et al 2000). The very fast t 3 = 8.4 days, the small amplitude of 7.8 mag in the V band, the P-class light-curve shape, the highexcitation lines, and the extremely high expansion velocity are all pointing strongly to the system being a recurrent nova (RN; Hachisu et al 2002;Pagnotta & Schaefer 2014).…”

Recurrent Nova V2487 Oph Had Superflares in 1941 and 1942 with Radiant Energies of 10^42.5±1.6 erg

“…Its outburst spectrum showed high-energy He II lines and a FWHM velocity of 10,000 km s −1 (Lynch et al 2000). The very fast t 3 = 8.4 days, the small amplitude of 7.8 mag in the V band, the P-class light-curve shape, the highexcitation lines, and the extremely high expansion velocity are all pointing strongly to the system being a recurrent nova (RN; Hachisu et al 2002;Pagnotta & Schaefer 2014).…”

Recurrent Nova V2487 Oph Had Superflares in 1941 and 1942 with Radiant Energies of 10^42.5±1.6 erg