Testing the use of Adaptive Optics to reveal the age of distant galaxies Emily De La Garza University of Houston-Downtown University of California, Santa.

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Presentation transcript:

Testing the use of Adaptive Optics to reveal the age of distant galaxies Emily De La Garza University of Houston-Downtown University of California, Santa Cruz Center for Adaptive Optics

Galaxy Background The outside is generally blue which indicates young stars. The inside is red which could mean old or young and dusty. The galaxy is red which could mean old or young and dusty. The dust band can be penetrated with Adaptive Optics.

Hubble Space Telescope The HST takes high resolution UV and optical images. The images give data which can fit different age models for the galaxy. A galaxy could look 10 Giga years old and really be 5 Million years old with a high dust content. Blue Red DimBright

The missing wavelength The HST resolution in the near infrared is poor. Near infrared penetrates through the dust. We are able to see individual components of the galaxy. Adaptive Optics on large ground-based telescopes allows high resolution in the infrared.

Testing We viewed a simulated galaxy and made spectra for each of the filters used. We measured four different areas for their flux and wave length. Near UV I Band (Optical) K Band (IR)

Bruzaul and Charlot’s Program This program allows the user to choose the dust content, bursts of star life, and how old the galaxy is. It then simulates the data from the specifications We used these graphs to fit the simulated galaxy against.

Normalizing In order to plot everything together, each component was normalized. To find out the age of the simulated galaxy, we over plotted onto the Bruzaul and Charlot graphs to find a fit. Log Flux Wavelength in Micro-Meters Blue Red Dim Bright

Near and Far Ultraviolet During experimenting with Tau models for star life, the near and far UV proved essential. Wavelength in Micro-Meters Log Flux Blue Red Dim Bright

Wavelength in Micro-Meters Log Flux Blue Red Dim Bright

Adding Adaptive Optics Placed galaxy into a galaxy field to add atmosphere and correct with AO. No Atmosphere With Atmosphere With Atmosphere & AO

Correction For The Bulge Wavelength in Micro-Meters Log Flux Blue Red Dim Bright

Research To Come Adding multiple bursts to models for a better fit Experiment more with AO correction.

Acknowledgments Dr. David Koo – Principal Investigator Jason Melbourne – Research Supervisor Malika Bell – Education Coordinator (CfAO) Hilary O’Bryan – Program Assistant (CfAO) Center for Adaptive Optics HACU Patrik Jonsson Anne Metevier Layra Reza Monica Pinon Oscar Azucena Carlos Andres Cabrera This project is supported by the National Science Foundation Science and Technology Center for Adaptive Optics, managed by the University of California at Santa Cruz under cooperative agreement No. AST