tidal disruption from supermassive black hole binaries in merging galaxies: before & after the...
TRANSCRIPT
Tidal Disruption from Supermassive Black Hole Binaries in Merging Galaxies:
Before & After the Coalescence
Shuo LiNAOC
Collaborated with
Rainer Spurzem, F. K. Liu, Peter Berczik, Xian Chen & Stefanie Komossa
2014. 04. 30.
Evolution of Supermassive Black Hole Binaries
GW
~10kpc
Hudson et al., 2006
~kpc
Komossa et al., 2003
~10pc
Rodrigue et al., 2006
Begelman et. al., 1980.
Art by Xian Chen3C75
0402+379NGC6240
04/18/23
Tidal Disruption
• BH’s tidal gravity conquer star’s self gravity:
– Tidal radius:
105M⊙106M⊙
107M⊙
108M⊙
Linda Strubbe
NASA/CXC/M.Weiss
04/18/23
Tidal Disruption• Tidal Flare
– Mass distribution during tidal disruption (TD):
– Re-falling rate:
– Luminosity:
Evans et.al., APJ 1989, 346 L13
04/18/23
TD in SMBHB Systems
04/18/23
TD in SMBHB Systems
• A triple system is hierarchical and stable when (Mardling & Aarseth 2001):
• The accretion interrupts at a time Ttr :
η ~ 0.27 in average theoretically. Our simulation results have η ~ 0.25.
Liu, F. K.; Li, S. & Chen, X., 2009,
Art Credit: ESA - C. Carreau 04/18/23
TD in SMBHB Systems
• A triple system is hierarchical and stable when (Mardling & Aarseth 2001):
• The accretion interrupts at a time Ttr :
η ~ 0.27 in average theoretically. Our simulation results have η ~ 0.25.
Liu, F. K.; Li, S. & Chen, X., 2009,
Art Credit: ESA - C. Carreau 04/18/23
MBH=107M⊙,e = 0.3,q = 0.08,T = 150 daysa ~ 0.59mpc ~ 620rg
SDSS J120136.02+300305.5
Liu, F. K., Li, S. & Komossa, S., 2014
Tidal Disruption of Recoiling SMBH
Phase I
Phase II
• Boosted TD events around density center in phase I:
Higher stellar density;
04/18/23
Li, S., Liu, F. K., Berczik, P., Chen, X. & Spurzem, R., 2012
Tidal Disruption of Recoiling SMBH
• Boosted TD events around density center in phase I:
Higher stellar density;
• Monotonic increasing TD rates for recoiling SMBH in phase I:
• Constant TD rates for stationary SMBH and recoiling BH in phase II:
04/18/23
Summary
• The SMBHBs in normal galaxies are hard to detect;
• TD can be a very powerful tool to study SMBHBs in quiescent galaxies;
– Boosted TD rates in merging galaxies;– The truncation of TD light curve can be used to distinguish
SMBHB;– Boosted TD rates for recoiling SMBHB passing by galactic
center;
• Large scale survey like LSST is very important;
• Long term follow up observation is very important.
04/18/23