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Holography Applied to Artificial Data

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Presentation on theme: "Holography Applied to Artificial Data"— Presentation transcript:

1 Holography Applied to Artificial Data
A. Birch D. Braun NWRA, CoRA Division S. Hanasoge (Stanford)

2 Outline Simulated Data Holography Results Background models
Power spectra Holography Results Frequency dependence Positive travel-time shifts

3 Numerical Simulations
Code by Shravan Hanasoge (Hanasoge et al. 2007) Propagate linear waves through arbitrary backgrounds (restrictions: must be convectively stable) 256x256x300 grid (200 Mm^2 x 36 Mm)

4 Background Models Sound Speed (cm/s) Stabalized S Polytrope + iso
Density (cgs) Acoustic Cutoff (mHz)

5 Power Spectra: Stabilized Model S

6 Power Spectra Model MDI

7 Sound-Speed Perturbations
Fan, Braun, & Chou (1995) for the sound-speed perturbation Use epsilon=0.1. For the “shallow” case: D=1 Mm For the “deep” case: D=10 Mm In both cases: R=20 Mm Note that epsilon=1, D=1 was a good match to Hankel analysis phase shifts

8 Travel-Time Shifts Shallow Deep

9 Frequency Dependence Shallow, D=1 Mm Deep, D=10 Mm 3 mHz 4 mHz 5 mHz

10 Polytrope with isothermal atmo.
Shallow, D=1 Mm Deep, D=10 Mm 3 mHz 4 mHz 5 mHz

11 Positive Travel-Time Shifts (?)
(Braun & Birch 2007, Sol Phys. submitted)

12 Compare D=1 with MDI observations
3 mHz 4 mHz 5 mHz

13 Conclusions support NASA (NNG07EI5IC) NASA/Stanford/HMI project
Frequency dependence is a useful constraint on models In simple models, a shallow sound-speed perturbation produces something like the observed frequency dependence Increase in sound-speed can lead to increased travel times ! Lots of work to do: modeling & theory support NASA (NNG07EI5IC) NASA/Stanford/HMI project

14 Power Spectra Simulation (Polytrope) Sun (MDI Full Disk)

15 Positive Travel-Time Shifts
Ridge-Like Filter Phase-Speed Filter

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