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10 January 2006AAS EVLA Town Hall Meeting1 The EVLA: A North American Partnership The EVLA Project on the Web

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Presentation on theme: "10 January 2006AAS EVLA Town Hall Meeting1 The EVLA: A North American Partnership The EVLA Project on the Web"— Presentation transcript:

1 10 January 2006AAS EVLA Town Hall Meeting1 The EVLA: A North American Partnership The EVLA Project on the Web http://www.aoc.nrao.edu/evla/

2 New Science Impact of the EVLA Supercomputing Correlator P. Dewdney Herzberg Institute of Astrophysics National Research Council Canada M. P. Rupen National Radio Astronomy Observatory

3 Key EVLA Processing Capabilities Deep Imaging Polarization 8 GHz Bandwidth (dual polarization). Full polarization processing. Wide-field imaging. Narrow spectral lines Wideband searches 16,000 channels at max. bandwidth (BW). >10 5 channels at narrow BWs. Spectral resolution to match any linewidth. Spectral polarization (Zeeman Splitting). 8 tunable 2 GHz wide bands. Each band - 16 tunable sub-bands. Sub-band – independent spectral resolution. Simultaneous line and continuum. Flexibility Many resources High time resolution 1000 pulsar “phase bins”. “Single-dish” data output to user instruments. Very fast time sampling (20  s).

4 Star-Forming Galaxies at High Redshift Enabled by enhanced sensitivity of EVLA. Complementary to ALMA & Spitzer. K-correction compensates for z- losses in the 45 GHz band. Resolution 50 mas. (200 pc @ z=10). Imaging: 1 arcsec over 30 arcmin @ 1.5 GHz. EVLA/ALMA gives complete galaxy SED’s: –3 orders of magnitude of frequency, –Large range of redshift. Arp220 SED scaled to high redshifts. NGC 3690 (optical) Spitzer non-thermal/AGN ionized gas dust

5 CO Surveys of High-z Star-Forming Galaxies ARP 220 (optical) EVLA sensitivity (red line) in 8 hrs (1  ). Detects (J=1-0, 2-1, 3-2, 4- 3). More transitions at high z. Precise redshift not necessary in advance. Spectral resolution will match channel to line- width. Other lines: HCN, HCO + … CO J=3-2 Z = 6.42 Peak ~ 0.6 mJy This is a struggle!

6 Setup for CO Z-Search 40-50 GHz band provides lowest redshift. z = 1.4 to 1.9 for J=1-0. z = 3.8 to 4.8 for J=2-1.  v ~ 5.0 km s -1 (1 MHz). 200 km-s -1 galaxy would occupy ~40 channels. Interferometry High resolution imaging. Good spectral baselines.

7 ~ 30 H + radio recomb. lines in one observation. “Stack” lines to improve sensitivity. H +, He +, C + recomb. lines. EVLA resolution provides images of:  gas density,  temperature,  metallicity,  B-fields (Zeeman). Sensitivity (12 hr, 5  ):   S line ~ 0.1 mJy (stacked, integral)   B ~ 150  Gauss. Orion, W3, Gal. Center … Magnetic Fields in Star-Forming Regions

8 Hundreds of Spectral Lines Kaifu, et al., TMC-1, 2004. Nobeyama spectral scan. 414 lines (8 to 50 GHz) 38 species. Some likely to show Zeeman splitting. “D-array” EVLA –Resolution, –Spectral baseline stability, –Imaging. EVLA can observe 8 GHz at one time – an average of 80 lines --- at 10 km/s velocity res’n (30 GHz) EVLA Correlator can “target” many (~60) lines at once. TA*TA* 8 GHz

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