1. The Galactic Center at Low Radio Frequencies Namir Kassim (NRL) Crystal Brogan (IfA) J. Lazio (NRL), Ted LaRosa (Kennesaw State), M. Nord (NRL/UNM), W. M. Goss (NRAO), N. Duric (UNM), & K. Anantharamaiah (RRI) 30 th Anniversary of the Discovery of SgrA* March 26, 2004

2. Until recently, Sagittarius A* was undetected below 1.4 GHz. The source was thought to be undetectable due to foreground thermal (free- free) absorption. Sub-mm - Zhao, Bower, & Goss (2001) Radio - Zhao, Bower, & Goss (2001) The Radio/Sub-mm Spectrum of Sgr A*

3. Grey scale 330 MHz (non-thermal) Contours 5 GHz (thermal ionized gas) Slices through position of SgrA* at 330 MHz SgrA*

4. Sub-mm - Zhao, Bower, & Goss (2001) Radio - Zhao, Bower, & Goss (2001) Sub-mm - Zhao, Bower, & Goss (2001) Radio - Zhao, Bower, & Goss (2001) 610 MHz – Roy et al. (2003) 330 MHz – Nord et al. (2004, accepted) We have detected SgrA* at the lowest frequency. The line of sight (free-free) optical depth to Sgr* is most likely low (  330 MHz <0.4). Local clearing of the ambient gas, or clumpiness in the ionized ISM? Implications for emission mechanisms still being explored. The New Radio/Sub-mm Spectrum of Sgr A*

5. New GC non-thermal filament: “The Pelican” (Lang, Anantharamaiah, et al. 1999) 330 MHz Galactic Center

6. Galactic Center: Many new NTFs –Orientation of newly discovered NTF’s suggests a magnetic field structure more complicated than a simple dipole –Detecting only the peak of the NTF luminosity function? –A significant increase in sensitivity might detect hundreds of NTFs. VLA A+B conf. ~10” resolution

7. Galactic Center Transients Before = 330 MHz After Hyman, Lazio, Nord, & Kassim 2002

8. Coming soon – new ABCD+GBT image rms ~ 1 mJy (vs. 5)  ~ 6” (vs. 45”) Created using “Feathering” technique developed by Bill Cotton

9. Best previous images with  < 300 MHz have (eg. LaRosa & Kassim 1985): resolutions > 7’ ~40x less sensitivity VLA 4m resolution 2.1’ x 1.2’ using A+B+C+D config. Data Peak ~ 35 Jy/beam rms ~ 0.1 Jy/beam Integrated Flux ~ 4000 Jy VLA 74 MHz (4 m) Image

10. Comparison of GC 4 m and 6 cm Images Parkes 6 cm resolution 4’: Haynes et al. 1978, AuJPS, 45, 1 SNR: W28 Galactic Center HII Region: NGC 6357 SNR: Tornado HII Region: NGC 6334 VLA 4m resolution 2.1’ x 1.2’ A+B+C+D config. data Inner Galaxy HII Region; , Te T Gf T Gb

11. The Central Molecular Zone Dame et al. 2001 Bitran et al. 1997 Enhanced synchrotron due to: Increased density Increased B Increased star formation rate/cosmic rays CMZ: “Central Molecular Zone”  ~ -0.9 to -0.7

12. Close Up on the GC From 4m to 6cm VLA 4m image resolution 2.1’ x 1.2’ using A+B+C+D config. data Nobeyama 3 cm image resolution 3’ Handa et al. 1989, PASJ, 39, 709 VLA 90 cm image resolution 2.1’ x 1.1’ using C+D config. data

13. Large Scale Outflows from the GC First identified by Sofue & Handa (1984) from Nobeyama 3 cm survey GC “Omega Lobe” East West Bland-Hawthorn & Cohen (2003) MSX at 8.3  m Sgr CRadio Arc

14. Large Scale Outflows from the GC Sgr C Radio Arc Nobeyama 3 cm Image VLA 4 m Image Haynes et al. (1992) Parkes 3.5 cm Polarized intensity East Lobe  Partially non-thermal based on polarization (Haynes et al. 1992; Tsuboi et al. 1986) West Lobe  Thermal based on deep 4m absorption

15. Absorption Near the GC (4m vs. 6cm) HII: Sgr B1 & B2 Diffuse HII Regions HII: Sgr D Nobeyama 3 cm ImageVLA 4 m Image HII: Sgr E Sgr C Sgr A West

16. A 3-D Cartoon of the GC Region Sgr D HII Sgr B2 HII Sgr B1 HII Sgr E Sgr A* Sgr C Relative distance along line of sight Central Molecular Zone 3 kpc Arm -200 km/s +200 km/s Diffuse HII Regions

17. Summary of GC at Low Frequency Lowest frequency detection of SgrA* New nonthermal filaments imply complex B morphology Ongoing wide field search for transient sources True extent of low density GC synchrotron emission - Encompasses CMZ “Central Molecular Zone” - Confinement? Particle spectrum? B-field? Identifying thermal gas near the GC from absorption - Large scale outflow - Sgr A West, Arched filaments, Sgr C Resolving distance ambiguity for HII regions in absorption

18. END

19. HII Region Absorption Near SNR W28 HII Region: M8 D ~ 1.8 kpc HII Region: M20 D ~ 2 kpc HII Region: W28A-2 D ~ 4 kpc VLA 4m image resolution 2.1’ x 1.2’Parkes 6cm image resolution 4’ Haynes et al. 1978, AuJPS, 45, 1

20. Free-Free Absorption  Nearby HII regions can be seen in absorption against Galactic synchrotron emission  Can be used to resolve distance ambiguity Observer Single dish Single dish: T obs_s = Te + T Gf on source T obs_s =T Gt off source where T Gt = T Gf + T Gb T obs_s T Gt T obs_s =0 Inner Galaxy HII Region; , Te T Gf T Gb Interferometer: T obs_i = Te – T Gb on source (Negative if T Gb > Te) T obs_i =0 off source =>T Gf = T Gt – T Gb  T Gf = T Gt + T obs_i – Te  Emissivity= T Gf /D T obs_i T obs_i =0 Interferometer