Presentation is loading. Please wait.

Presentation is loading. Please wait.

Determining flows from magnetic field evolution An outline of the approach we’ve adopted at UCB (Welsch, Fisher, Abbett, Regnier)

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Determining flows from magnetic field evolution An outline of the approach we’ve adopted at UCB (Welsch, Fisher, Abbett, Regnier)"— Presentation transcript:

1 Determining flows from magnetic field evolution An outline of the approach we’ve adopted at UCB (Welsch, Fisher, Abbett, Regnier)

2 Determining a physically reasonable flow field is essential for data-driven MHD models. To what extent can flow velocities be inverted from time sequences of magnetogram data? We believe the ideal MHD induction equation should be obeyed…

3 The standard technique for determining horizontal motions is Local Correlation Tracking… There are many different implementations in use today. The original idea was described in November & Simon (1988) – try to define a velocity by moving sub-images of an image taken at an earlier time to best fit corresponding sub-images of an image taken later. No physics involved. Other versions in use at BBSO, LMSAL We developed our own implementation. For each pixel location, multiply the image by a gaussian centered at the given pixel location, and find the shift between the resulting 2 images that maximizes the cross-correlation function. The cross-correlation function is determined using standard FFT techniques. Our IDL LCT code is publicly available: http://solarmuri.ssl.berkeley.edu/~fisher/public/software/idl/lct

4 LCT tests show it works under a wide variety of conditions … Apply a velocity field to an image consisting of random hash – can LCT correctly recover the velocity?

5 Recovered velocity fields… Here, it did correctly find the applied horizontal velocity field… VxVx VyVy

6 Induction equation (z component) Define a new quantity U  such that then

7 Decomposing vertical and horizontal flow components: Once is known, are known if

8 Induction + LCT (ILCT) Welsch, Fisher, Abbett (UCB), Regnier (MSU) Induction Eqn. Constrains  Induction Eqn. Constrains  LCT Constrains 

9 Note that knowledge of transverse fields not needed to solve induction equation! Caveats: If knowledge of real vertical and horizontal velocities needed (as in an MHD code), then need B  to determine v z and v . The vertical component of induction equation doesn’t apply if the LOS and vertical direction differ substantially ILCT formalism needs to be extended away from disk center if it is to be used with scalar magnetograms

10 Warts, problems with LCT, ILCT With ILCT, velocity is poorly determined near neutral lines or in magnetically featureless areas LCT performs reasonably well in “moving paint” experiments, but does poorly in recovering flows from many MHD simulations. Our LCT algorithm is too slow. It needs to be made faster (is now written in IDL, should probably be re-written in Fortran or C. LCT, ILCT are unconstrained by flows parallel to the field. Magnetic evolution provides no constraint on parallel flows.

Download ppt "Determining flows from magnetic field evolution An outline of the approach we’ve adopted at UCB (Welsch, Fisher, Abbett, Regnier)"

Similar presentations

Bayesian Belief Propagation

Bayesian Belief Propagation
Motion.

Motion.
Estimating Surface Flows from HMI Magnetograms Brian Welsch, SSL UC-Berkeley GOAL: Consider techniques available to estimate flows from HMI vector magnetograms,

Estimating Surface Flows from HMI Magnetograms Brian Welsch, SSL UC-Berkeley GOAL: Consider techniques available to estimate flows from HMI vector magnetograms,
Time Series of Magnetograms: Evolution, Interpretations, Inferring Flows G. Fisher, Y. Li, B. Welsch.

Time Series of Magnetograms: Evolution, Interpretations, Inferring Flows G. Fisher, Y. Li, B. Welsch.
Inductive Flow Estimation for HMI Brian Welsch, Dave Bercik, and George Fisher, SSL UC-Berkeley.

Inductive Flow Estimation for HMI Brian Welsch, Dave Bercik, and George Fisher, SSL UC-Berkeley.
Using HMI to Understand Flux Cancellation by Brian Welsch 1, George Fisher 1, Yan Li 1, and Xudong Sun 2 1 Space Sciences Lab, UC-Berkeley, 2 Stanford.

Using HMI to Understand Flux Cancellation by Brian Welsch 1, George Fisher 1, Yan Li 1, and Xudong Sun 2 1 Space Sciences Lab, UC-Berkeley, 2 Stanford.
Can We Determine Electric Fields and Poynting Fluxes from Vector Magnetograms and Doppler Shifts? by George Fisher, Brian Welsch, and Bill Abbett Space.

Can We Determine Electric Fields and Poynting Fluxes from Vector Magnetograms and Doppler Shifts? by George Fisher, Brian Welsch, and Bill Abbett Space.
SSPVE Discussion Group B Question 5 To what extent is it possible to predict the emergence of active regions before they reach the photosphere, or to predict.

SSPVE Discussion Group B Question 5 To what extent is it possible to predict the emergence of active regions before they reach the photosphere, or to predict.
“Assimilating” Solar Data into MHD Models of the Solar Atmosphere W.P. Abbett SSL UC Berkeley HMI Team Meeting, Jan 2005.

“Assimilating” Solar Data into MHD Models of the Solar Atmosphere W.P. Abbett SSL UC Berkeley HMI Team Meeting, Jan 2005.
SHINE Campaign Event: 1-2 May 1998 Brian Welsch (& Yan Li) Space Sciences Laboratory, UC Berkeley Introduction: Data, Context, etc. Work: Completed & Ongoing.

SHINE Campaign Event: 1-2 May 1998 Brian Welsch (& Yan Li) Space Sciences Laboratory, UC Berkeley Introduction: Data, Context, etc. Work: Completed & Ongoing.
Using Photospheric Flows Estimated from Vector Magnetogram Sequences to Drive MHD Simulations B.T. Welsch, G.H. Fisher, W.P. Abbett, D.J. Bercik, Space.

Using Photospheric Flows Estimated from Vector Magnetogram Sequences to Drive MHD Simulations B.T. Welsch, G.H. Fisher, W.P. Abbett, D.J. Bercik, Space.
1 A New Technique for Deriving Electric Fields from Sequences of Vector Magnetograms George H. Fisher Brian T. Welsch William P. Abbett David J. Bercik.

1 A New Technique for Deriving Electric Fields from Sequences of Vector Magnetograms George H. Fisher Brian T. Welsch William P. Abbett David J. Bercik.
Reducing the Divergence of Optimization-Generated Magnetic Fields J.M. McTiernan, B.T. Welsch, G.H. Fisher, D.J. Bercik, W.P. Abbett Space Sciences Lab.

Reducing the Divergence of Optimization-Generated Magnetic Fields J.M. McTiernan, B.T. Welsch, G.H. Fisher, D.J. Bercik, W.P. Abbett Space Sciences Lab.
HMI, Photospheric Flows and ILCT Brian Welsch, George Fisher, Yan Li, & the UCB/SSL MURI & CISM Teams HMI Team Mtg., 2006M3: Mag Data Products Correlation.

HMI, Photospheric Flows and ILCT Brian Welsch, George Fisher, Yan Li, & the UCB/SSL MURI & CISM Teams HMI Team Mtg., 2006M3: Mag Data Products Correlation.
Local Data-driven MHD Simulations of Active Regions W.P. Abbett MURI 8210 Workshop Mar 2004.

Local Data-driven MHD Simulations of Active Regions W.P. Abbett MURI 8210 Workshop Mar 2004.
Estimating Electric Fields from Sequences of Vector Magnetograms George H. Fisher, Brian T. Welsch, William P. Abbett, and David J. Bercik University of.

Estimating Electric Fields from Sequences of Vector Magnetograms George H. Fisher, Brian T. Welsch, William P. Abbett, and David J. Bercik University of.
HMI & Photospheric Flows 1.Review of methods to determine surface plasma flow; 2.Comparisons between methods; 3.Data requirements; 4.Necessary computational.

HMI & Photospheric Flows 1.Review of methods to determine surface plasma flow; 2.Comparisons between methods; 3.Data requirements; 4.Necessary computational.
Dec. 10, 2004RHESSI/SOHO/TRACE The Minimum Energy Fit Consistent with Induction at Minimum Possible Cost Dana Longcope Montana State University Work supported.

Dec. 10, 2004RHESSI/SOHO/TRACE The Minimum Energy Fit Consistent with Induction at Minimum Possible Cost Dana Longcope Montana State University Work supported.
M3 Session AIA/HMI Science Meeting D-1 : M3-Magnetic Field Data Products Data Product Development Session Chairs: R. Larsen/Y. Liu Status: [draft]

M3 Session AIA/HMI Science Meeting D-1 : M3-Magnetic Field Data Products Data Product Development Session Chairs: R. Larsen/Y. Liu Status: [draft]
HMI – Synoptic Data Sets HMI Team Meeting Jan. 26, 2005 Stanford, CA.

HMI – Synoptic Data Sets HMI Team Meeting Jan. 26, 2005 Stanford, CA.

Similar presentations

Ads by Google