Radio spectroscopy. Annoying question at a NSF Science and Technology Center Review

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Radio spectroscopy A. Harris Image: part of an H-ATLAS field as seen in the Herschel-SPIRE 250/350/500 m bands H-ATLAS: Eales et al., PASP 2010 Annoying question at a NSF Science and Technology Center Review Are the graduate students being properly prepared to enter the 21 st century job market? General, strong background: Physics Applied math Computer science Diverse and useful skills: Computing (programming, modeling) Instrumentation 1

Key questions for radio astronomy Among the most important topics in radio astronomy are: Structure in the Cosmic Microwave Background (power spectrum, polarization) The era of galaxy formation Finding the early galaxies Investigating and understanding local templates Star formation Structure of molecular clouds Structure of active and normal galactic nuclei 16 element scalable W-band focal plane array for the GBT Argus is being commissioned on the GBT. It is a collaboration between Stanford U. (PI Sarah Church), Caltech, JPL, Univ. Maryland, Univ. Miami, and NRAO. Frequency operation range: 75-115.3 GHz Tsys~75K 2

Large area mapping with Argus Spectral imaging in HCN, HCO +, 13 CO, C 18 O Dense regions Column densities Galactic and extragalactic star formation Galactic filaments Extragalactic GMCs Galactic center Extragalactic nuclei 3

The 100 meter Green Bank Telescope National Radio Astronomy Observatory Green Bank Observatory (GBO) Green Bank, West Virginia GBT photo 4

5

The view from the top 6

Stratospheric Observatory for Stratospheric Infrared Observatory Astronomy for Infrared Astronomy (SOFIA) SOFIA P U d t Program Update SOFIA Splinter Meeting, AAS, Pasadena 7 June 2009 13 7

Galactic Center in radio continuum VLA image What warms the dense molecular material in the Galactic center? Center molecular clouds are substantially warmer than disk clouds (e.g. Güsten+85) Lots of energy available: a black hole, hot stars (UV), intersecting orbits and colliding stellar winds (shocks), X-rays, rigid magnetic fields, radio lobes A pretty active nucleus A galactic nucleus we can understand d in detail At 8.3 kpc, 10 = 0.4 pc 8

ASTR695 10/3/16 Harris+2016 [N II] and [O III] in the Arches Green circle diameter MSX point source catalog 8µm/24µm [O III]/[N II] in J02399-0136 and in the Galactic center Arches Arches: 35500 K Sickle: 36200 K HII: Rubin 85, by F ki h ff 11 9

A solution? Cluster of early O, WR stars Cloud boundary [O III] 35-55 ev [N II] 14-30 ev Radio cont. Geometrical dilution can t change field hardness No O stars? Unlikely. But: density gradient at cloud edge can soften radiation field with distance into cloud, reducing apparent [O III]/[NII] ratio Test with SOFIA FIFI-LS [N III] observations scheduled for summer 2016: does [N II] have same spatial distribution as [O III] or as [N II]? 13.6 ev 2 as [O III] or as [N II]? I n e 2 d FIFI-LS footprints on the Galactic Center s Sickle and Arches Color Herschel-PACS [N II]; contours 20 cm radio continuum 10

Universe s structure formation Cosmic star formation rate density vs. redshift Carilli & Walter 2013, after Bouwens et al. 2010 11

The Zpectrometer ultrawideband correlation spectrometer NSF ATI Program award AST-0503946 to UMD The 100 meter diameter Robert C. Byrd Green Bank Telescope (GBT) UMD s Zpectrometer correlators on the GBT receiver turret COMAP survey properties at z ~ 2.9 Sensitive to clusters of galaxies 10 m telescope, 26-34 GHz; 29 GHz center frequency, enc ~3.4 beam Beam size corresponds to a comoving ~6 Mpc z ~ 0.006 matches the linear and line of sight scales This corresponds to f ~ 48 MHz, or ~165 slices in an 8 GHz bandwidth (covering ~1 Gyr) Comoving volume of ~600 Mpc 3 for each slice (each covering ~60 Myr) 12

Simulated integrated intensity images 13

Cross-correlation distinguishes signal from noise Potential projects Herschel HIFI and SOFIA Galactic center (data analysis; with MPIfR Bonn, UCLA, Cornell). A great second-year project. Argus observations and mapping software for the GBT: dense gas mapping of galaxies and galactic filaments at 4 mm wavelength (With Boltatto tt or Mundy) COMAP CO integrated intensity experiment to trace star formation near the peak of the galaxy formation and mass assembly era (High risk, high gain in a big international project) 14

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