David Sanders

Institute for Astronomy, University of Hawai, USA

David Sanders (left) with Marcella Carollo
David Sanders (left) with Marcella Carollo

Date

28 October 2009

Host

Marcella Carollo

Talk title

The Infrared Universe: The Cosmic Evolution of Superstarbursts and Merging Massive Black Holes

Abstract

Our current view of galaxy evolution has been dramatically enhanced by new deep field surveys at far-infrared and submillimeter wavelengths. Evidence now suggests that the extragalactic luminosity density in the far-IR/submm region of the electromagnetic spectrum exceeds that in the optical/ultraviolet by factors of 2-5 at redshifts z > 1, implying that as much as 80% of the "activity" in galaxies in the distant Universe is hidden by dust. Much of this obscured activity occurs in Luminous Infrared Galaxies (LIRGs), which appear to be triggered by major mergers of gas-rich spirals. LIRGs are powered by both dust-enshrouded super-starbursts and accretion onto massive black holes (MBH). The LIRG phase ends shortly after the merger of the two MBH, which triggers an ejection of most of the surrounding gas and dust, leaving behind a gas-po0r, massive elliptical galaxy. This major event in galaxy evolution has been largely missed by deep UV/optical surveys. Our own galaxy, the Milky Way will likely suffer a similar fate 5 billion years hence, when it merges with our large neighbor - the Andromeda galaxy. The merger of two MBH (~106 Msun), will be one of the prime targets for testing General Relativity using the Laser Interferometer Space Antenna (LISA). Our results for the number density of LIRGs suggest that such events may be as common as one per week.

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