Abstract for Proposal 090330
Unveiling the energy source of Super-luminous Supernovae
We propose an in-depth study of 1 Super-Luminous Supernova (SLSN). SLSN
are >10 times more luminous than ordinary SN and represent the deaths
of the most massive stars in our Universe. Their extreme luminosity
requires exotic explosion mechanisms and sources of energy whose nature
is unclear. Here we propose a focused XMM program to map their X-ray
emission down to unprecedented limits as part of our multi-wavelength
effort (UV, optical/NIR, radio, hard X-rays). The final goal is to:
(i) Constrain the energy source of SLSN; (ii) Map the diversity of
the pre-explosion evolution of their progenitors. (iii) Constrain their
possible association with Gamma-Ray Bursts. Our study opens a new window
of investigation on the physics of the most powerful stellar explosions
Details on Observing Strategy and Trigger Criteria
TRIGGERING CRITERIA= (i) Spectroscopically classified Type I or Type
II SLSN accessible to XMM (ii) relatively young (i.e. caught around
or before maximum light); (iii) z<=500 Mpc REACTION TIME= the first
epoch will be acquired around maximum optical light (i.e. 30 days after
explosion). XMM reaction time needed is of ~15 days since trigger TOO
FOLLOW UP INSTRUCTIONS: The first ToO will be triggered ~50 days after
the first activation (~100 days rest frame since explosion). The second
ToO will happen ~150 days later (t~250 days since explosion) or as late
as the program allows.