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- Pan-STARRS, Eugene Magnier, IfA
- Killer asteroid finder
- 4 x 1.8 m telescopes, each with 3 deg fov and 1G pixel CCD.
- "All-Sky" (30,000 sq deg) survey every 7 nights down to 24 mag (5 sigma)
- Online c. 2008-2009; PS1 prototype Jan 2006
- Sloan-like filter selection
- GOODS: The Great Observatories Origins Deep Survey
- HST, Chandra, Spitzer + XMM-Newton
- Useful for finding galaxies and QSOs for z > 4 and type Ia SNe for 0.2 < z < 2.
- Science with Virtual Observatory tools Paolo Padovani, ESO
"Doing real science (finding QSO 2s) without doing real observations."- The next logical step after online catalogs (NED , Simbad), online databases (HEASARC) and central access points (CADC)
- 1 Tb of new data/night (!?)
- VO standards and protocols IVOA
- in situ data analysis (e.g., Aladin)
- Exercise: Multiwavelength analysis of GOODS data (HDF, CDF + ground-based spectroscopy) to identify QSO 2s Padovani et al.
- Aladin and the VO FAQ
- AVO interface for displaying and analyzing multiwavelength data, specifically correlating catalog data with astronomical images.
- Implemented in Java
- The Development of DS9
- Interesting mostly for mention of need for multiprocessor support.
- SExtractor
- Source identification tool
- Has its own optimal filtering algorithm.
- Used at Saclay for LAT source catalog generation.
"Focus" Demos
- NVO
- How to make astronomical data and catalogs available using standard VO protocols.
- Registry Services support publishing of data, querying of specific databases, and harvesting wherein different registries allow information to be passed between them so that a query at one registry may find data at a different one.
- Python Tools for Analysis and Visualization of Astronomical Data
- Tools from Space Telescope Science Institute:
- numarray A replacement for the Numeric package; offers similar array manipulation functionality as matlab or IDL.
- PyFITS A nice interface for accessing data in FITS files.
- numdisplay Steer image display using ds9 or ximtool from Python.
- PyRAF Python replacement for the IRAF command language.
- matplotlib A default plotting package for Python?\\\\
An example:Code Block title test_plot.py from matplotlib.matlab import * def join(x, sign=1): x1 = list(x) x2 = list(sign*x) x1.reverse() x1.extend(x2) return array(x1) func = "x**3 - x + 1" f = eval("lambda x: " + func) x = arange(-2, 8, 0.01) y2 = f(x) indx = where(y2 > 0) x = x[indx] y = sqrt(y2[indx]) x = join(x) y = join(y, -1) figure(1, figsize=(6, 6)) clf() plot(x, y, 'k') xymax = 20 plot([0, 0], [-xymax, xymax], ':b', [-xymax, xymax], [0, 0], ':g') xx = arange(-1, 8) yy = sqrt(f(xx)) indx = where((yy % 1) == 0) plot(xx[indx], yy[indx], "D") xlabel(r'$x$') ylabel(r'$y$') eq = '$y^2 = ' + func.replace('**', '^').replace('*', '') + '$' legend((eq, '$x=0$', '$y=0$')) xlim(-1.5, 2) ylim(-2, 2)
Here's the plot that results:\\\\
- Tools from Space Telescope Science Institute: