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Emission Measure Distributions: A Tutorial Nancy S. Brickhouse Harvard-Smithsonian Center for Astrophysics From Spectral Lines to Emission Measures Emission.

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Presentation on theme: "Emission Measure Distributions: A Tutorial Nancy S. Brickhouse Harvard-Smithsonian Center for Astrophysics From Spectral Lines to Emission Measures Emission."— Presentation transcript:

1 Emission Measure Distributions: A Tutorial Nancy S. Brickhouse Harvard-Smithsonian Center for Astrophysics From Spectral Lines to Emission Measures Emission Measure Distributions of Different Stars Hot Research Questions Coronal Structure Coronal Abundances Coronal heating: flares and nanoflares New England Space Science Cambridge, MA March 1, 2006

2 We use UV, EUV, and X-ray Lines from log T = 4.0 to 8.0 Chandra From Spectral Lines to Emission Measure

3 Line Flux = ∑ ε (T) EM(T) / (4 π R 2 ), where R is the distance, EM (T) = ∫ N e N H dV is the emission measure, and ε (T) depends on a lot of atomic physics, e.g. ionization and recombination rates collisional excitation rates radiative decay rates AND we make a number of assumptions, such as negligible optical depth collisional ionization equilibrium

4 Emission Measure Distributions for Different Stars

5 I.Understanding Coronal Structure Rotation and Activity Evolution Sun (G2 V) Yohkoh Image Capella (G8 III + G1 III); Expanding Loops? Hot Research Questions

6 Chandra Gratings Capella Electron Density Determination Compelling evidence for high density, small emitting region(s) Multiple pressures in the system Lower Pressure; L=.02 R * High Pressure; L=.003 R *

7 II. Abundances: Continuum and Line Modeling HR 1099 High Neon Abundance An Inverse FIP Effect? Hot Research Questions

8 III. Coronal heating: flares > 1 day flare with exponential decay Eclipse gives the extent of the flare loop Algol

9 Hot Research Topics III. Coronal heating: nanoflares Discrepancies are not explained by: atomic rate uncertainties calibration uncertainties absorption time variability I EUV Ω EUV [T e ] —— = ———— exp (-ΔE/kT e ) I X-ray Ω X-ray [T e ] 6 MK EMD peak

10 Breaking the Assumptions of Emission Measure Distribution Analysis We consider episodic heating (nanoflares) with: - heat input to the chromosphere - adiabatic expansion with rapid cooling. We calculate the time-dependent ionization state and obtain the resulting line emission. Chromosphere B T e (0) = 12 MK N e (0) = 4 x 10 12 cm -3 ~c s Loop Footpoint Energetic Beam T e (t) = 5 MK N e (t) = 10 12 cm -3 Δt~ 1 sec Chromosphere

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