Presentation is loading. Please wait.

Presentation is loading. Please wait.

C. Darren Dowell Jet Propulsion Laboratory 2006 Oct 24

Published byArthur Jacobs Modified over 6 years ago

Similar presentations

Presentation on theme: "C. Darren Dowell Jet Propulsion Laboratory 2006 Oct 24"— Presentation transcript:

1 C. Darren Dowell Jet Propulsion Laboratory 2006 Oct 24
Observing the Environment of Sagittarius A*, the Nearest Supermassive Black Hole, with CCAT C. Darren Dowell Jet Propulsion Laboratory 2006 Oct 24

2 200 mm is the perfect l for observation, and only CCAT can do it.
Executive Summary: CCAT will probe (for the first time at the spectral peak) the magnetized gas very near the event horizon of a supermassive black hole. Sgr A* environment of M = 4×106 Msolar black hole in the center of the Milky Way The majority of photons in the accretion zone are submillimeter wavelength, produced by synchrotron; some may be upscattered to X-rays during flare events. 200 mm is the perfect l for observation, and only CCAT can do it. What CCAT will see: accretion/jet events, magnetic field order changing on timescales of minutes

3 The spectrum of Sgr A* turns over somewhere in the far-infrared.
Genzel et al. (2003) CCAT coverage (l = mm) shown in yellow. Note ability of l = 200 mm to distinguish models.

4 Sgr A* is bright in the submm/far-IR, but surrounded by even brighter dust emission.
Only CCAT has the combination of angular resolution and sensitivity to study Sgr A* at 200 mm.

5 polarization fraction
Detecting submillimeter variability and polarization of Sgr A* is now routine from Mauna Kea. polarization fraction polarization angle Marrone et al. (2006) SMA, l = 850 mm

6 However… Very recent data (time delay from X-ray to submillimeter flare) suggests emission is optically thick at l = 850 mm  To see all the way in to source, need to go to shorter wavelengths, where existing telescopes lose detection speed. Existing telescopes apparently do not have enough sensitivity to detect orbital signatures: 2 hour (25 RSchwarzschild): obvious in radio, maybe seen in submm? 20 minute (2 RSchwarzschild): seen in near-IR, not reported in submm Chandra (F. Baganoff) CSO (D. Dowell)

7 Investigations with CCAT
Concentrate on highest frequencies (l = 200 and 350 mm), where the emission is likely to be optically thin. Signal-to-noise of (respectively) in one second of integration, sufficient to see any tiny orbital modulations. Use surrounding emission to monitor calibration stability with <<10% uncertainty. Polarimetry should be easy, with significant detection likely after ~1 minute integrations. Faraday rotation can be exploited: Small rotation at shortest wavelengths, yielding absolute position angle of net magnetic field. Field strength estimate using longer wavelengths. Admittedly, CCAT comes nowhere close to angularly resolving the emission from Schwarzschild radii, which is in principle a mix of Bondi-Hoyle and disk accretion and a jet, both relativistic. However, until far-IR/submm VLBI, CCAT will provide the strongest constraints on the accretion rate and magnetic field near the event horizon.

Download ppt "C. Darren Dowell Jet Propulsion Laboratory 2006 Oct 24"

Similar presentations

Accretion onto the Supermassive Black Hole in our Galactic Center Feng Yuan Shanghai Astronomical Observatory.

Accretion onto the Supermassive Black Hole in our Galactic Center Feng Yuan Shanghai Astronomical Observatory.
Probing Black Holes with Gravitational Lensing Eric Agol Chandra Fellow, Caltech PhD, UCSB (University of the Chronically Sun-Burned) (ITP 1999)

Probing Black Holes with Gravitational Lensing Eric Agol Chandra Fellow, Caltech PhD, UCSB (University of the Chronically Sun-Burned) (ITP 1999)
From the Event Horizon to Infinity: Connecting Simulations with Observations of Accreting Black Holes Jason Dexter 8/27/2009.

From the Event Horizon to Infinity: Connecting Simulations with Observations of Accreting Black Holes Jason Dexter 8/27/2009.
Radiative Models of Sgr A* and M87* from Relativistic MHD Simulations Jason Dexter University of Washington / UC Berkeley With Eric Agol, Chris Fragile.

Radiative Models of Sgr A* and M87* from Relativistic MHD Simulations Jason Dexter University of Washington / UC Berkeley With Eric Agol, Chris Fragile.
The Transient Universe: AY 250 Spring 2007 Sagittarius A* Geoff Bower.

The Transient Universe: AY 250 Spring 2007 Sagittarius A* Geoff Bower.
QUASARS Monsters of the ancient Universe Professor Jill Bechtold Steward Observatory Tucson Amateur Astronomers, Dec. 6, 2002.

QUASARS Monsters of the ancient Universe Professor Jill Bechtold Steward Observatory Tucson Amateur Astronomers, Dec. 6, 2002.
The Galactic Center: From the Black Hole to the Minispiral Jim Moran Harvard-Smithsonian Center for Astrophysics Institut d’Astrophysique de Paris and.

The Galactic Center: From the Black Hole to the Minispiral Jim Moran Harvard-Smithsonian Center for Astrophysics Institut d’Astrophysique de Paris and.
SMA Observations of Sgr A* Dan P. Marrone, Ram Rao, Jim Moran, Jun-Hui Zhao Harvard-Smithsonian Center for Astrophysics Sgr A * at 337 GHz 2004 May 25.

SMA Observations of Sgr A* Dan P. Marrone, Ram Rao, Jim Moran, Jun-Hui Zhao Harvard-Smithsonian Center for Astrophysics Sgr A * at 337 GHz 2004 May 25.
Class 24 : Supermassive black holes Recap: What is a black hole? Case studies: M87. M106. MCG-6-30-15. What’s at the center of the Milky Way? The demographics.

Class 24 : Supermassive black holes Recap: What is a black hole? Case studies: M87. M106. MCG What’s at the center of the Milky Way? The demographics.
X-ray Polarization as a Probe of Strong Magnetic Fields in X-ray Binaries Shane Davis (IAS) Chandra Fellows Symposium, Oct. 17, 2008.

X-ray Polarization as a Probe of Strong Magnetic Fields in X-ray Binaries Shane Davis (IAS) Chandra Fellows Symposium, Oct. 17, 2008.
Dusty star formation at high redshift Chris Willott, HIA/NRC 1. Introductory cosmology 2. Obscured galaxy formation: the view with current facilities,

Dusty star formation at high redshift Chris Willott, HIA/NRC 1. Introductory cosmology 2. Obscured galaxy formation: the view with current facilities,
Constraints on X-ray polarization of synchrotron jets from stellar-mass BHs Dave Russell niversity of Amsterdam In collaboration with: Dipankar Maitra,

Constraints on X-ray polarization of synchrotron jets from stellar-mass BHs Dave Russell niversity of Amsterdam In collaboration with: Dipankar Maitra,
The Submillimeter Bump of Sgr A* from GRMHD Simulations Jason Dexter University of Washington With Eric Agol, Chris Fragile and Jon McKinney.

The Submillimeter Bump of Sgr A* from GRMHD Simulations Jason Dexter University of Washington With Eric Agol, Chris Fragile and Jon McKinney.
The Milky Way Galaxy Immanuel Kant (1724 – 1804) German philosopher The infinitude of creation is great enough to make a world, or a Milky Way of worlds,

The Milky Way Galaxy Immanuel Kant (1724 – 1804) German philosopher The infinitude of creation is great enough to make a world, or a Milky Way of worlds,
What’s Brewing in the Teapot? M7 M6 M8 M22 Caty Pilachowski IU Astronomy.

What’s Brewing in the Teapot? M7 M6 M8 M22 Caty Pilachowski IU Astronomy.
Polarimetric Observations of in X-ray Binaries Dave Russell Instituto de Astrofísica de Canarias In collaboration with Tariq Shahbaz, Rob Fender Granada,

Polarimetric Observations of in X-ray Binaries Dave Russell Instituto de Astrofísica de Canarias In collaboration with Tariq Shahbaz, Rob Fender Granada,
Infrared Telescopes 1.

Infrared Telescopes 1.
 Galaxies with extremely violent energy release in their nuclei  Active Galactic Nuclei (AGN)  Up to many thousand times more luminous than the entire.

 Galaxies with extremely violent energy release in their nuclei  Active Galactic Nuclei (AGN)  Up to many thousand times more luminous than the entire.
By James Moran Harvard-Smithsonian Center for Astrophysics University of Barcelona, October 5, 2012 Dinnertime for Sgr A* (The Black Hole in the Center.

By James Moran Harvard-Smithsonian Center for Astrophysics University of Barcelona, October 5, 2012 Dinnertime for Sgr A* (The Black Hole in the Center.
Case Western Reserve University May 19, 2009. Imaging Black Holes Testing theory of gas accretion:Testing theory of gas accretion: disks, jets Testing.

Case Western Reserve University May 19, Imaging Black Holes Testing theory of gas accretion:Testing theory of gas accretion: disks, jets Testing.

Similar presentations

Ads by Google