Presentation is loading. Please wait.

Presentation is loading. Please wait.

Distinguishing Eruptive from Non-Eruptive Solar Active Regions Manolis K. Georgoulis JHU/APL 11100 Johns Hopkins Rd., Laurel, MD 20723 Durham, NH, 06/27/06.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Distinguishing Eruptive from Non-Eruptive Solar Active Regions Manolis K. Georgoulis JHU/APL 11100 Johns Hopkins Rd., Laurel, MD 20723 Durham, NH, 06/27/06."— Presentation transcript:

1 Distinguishing Eruptive from Non-Eruptive Solar Active Regions Manolis K. Georgoulis JHU/APL 11100 Johns Hopkins Rd., Laurel, MD 20723 Durham, NH, 06/27/06 Partially supported by LWS TR&T

2 Results for the entire solar cycle 23 / SoHO MDI LaBonte et al. (2006) X-flaring ARs |(dH m / dt)| > 6 x 10 36 Mx 2 s -1 X-flaring ARs appear to to have a lower threshold in their peak helicity rates Durham, 06/27/06 08/13

3 The energy equation in solar active regions Durham, 06/27/06 09/13 X-flaring ARs M-flaring ARs ARs with major eruptions are among the “largest” on the solar disk where

4 Helicity injection rate in solar active regions Durham, 06/27/06 07/13 The Poynting theorem for magnetic helicity in an open volume (Berger & Field 1984): Using the inferred LCT velocity the helicity injection rate becomes (Demoulin & Berger 2003) Using the improved estimation of the helicity flux density of Pariat et al. (2005) Although the use of the LCT velocity induces a number of problems, sufficient statistics may alleviate some of these problems

Download ppt "Distinguishing Eruptive from Non-Eruptive Solar Active Regions Manolis K. Georgoulis JHU/APL 11100 Johns Hopkins Rd., Laurel, MD 20723 Durham, NH, 06/27/06."

Similar presentations

Injection of magnetic helicity and chirality change in sunspot penumbral filaments Jiangtao Su National Astronomical Observatories of China Helicity Thinkshop.

Injection of magnetic helicity and chirality change in sunspot penumbral filaments Jiangtao Su National Astronomical Observatories of China Helicity Thinkshop.
Free Magnetic Energy and Relative Helicity in Quiet Sun Regions and their role in Solar Dynamics Kostas Tziotziou IAASARS, National Observatory of Athens,

Free Magnetic Energy and Relative Helicity in Quiet Sun Regions and their role in Solar Dynamics Kostas Tziotziou IAASARS, National Observatory of Athens,
1 A New Model of Solar Flare Trigger Mechanism Kanya Kusano (Hiroshima University) Collaboration with T.Maeshiro (Hiroshima Univ.) T.Yokoyama (Univ. of.

1 A New Model of Solar Flare Trigger Mechanism Kanya Kusano (Hiroshima University) Collaboration with T.Maeshiro (Hiroshima Univ.) T.Yokoyama (Univ. of.
Energy and Helicity Budget of Four Solar Flares and Associated Magnetic Clouds. Maria D. Kazachenko, Richard C. Canfield, Dana Longcope, Jiong Qiu Montana.

Energy and Helicity Budget of Four Solar Flares and Associated Magnetic Clouds. Maria D. Kazachenko, Richard C. Canfield, Dana Longcope, Jiong Qiu Montana.
A solar eruption driven by rapid sunspot rotation Guiping Ruan, Yao Chen, Shuo Wang, Hongqi Zhang, Gang Li, Ju Jing, Xing Li, Haiqing Xu, and Haimin Wang.

A solar eruption driven by rapid sunspot rotation Guiping Ruan, Yao Chen, Shuo Wang, Hongqi Zhang, Gang Li, Ju Jing, Xing Li, Haiqing Xu, and Haimin Wang.
Study of Magnetic Helicity Injection in the Active Region NOAA 11158 Associated with the X-class Flare of 2011 February 15 Sung-Hong Park 1, K. Cho 1,

Study of Magnetic Helicity Injection in the Active Region NOAA Associated with the X-class Flare of 2011 February 15 Sung-Hong Park 1, K. Cho 1,
1. Helicity: basic properties, open geometries 2. Observations of helicity and helicity flux 3. Twist and Writhe Mitchell Berger Review of Magnetic Helicity.

1. Helicity: basic properties, open geometries 2. Observations of helicity and helicity flux 3. Twist and Writhe Mitchell Berger Review of Magnetic Helicity.
Active Region Evolution and the Removal of Magnetic Helicity by CMEs Len Culhane Mullard Space Science Laboratory University College London.

Active Region Evolution and the Removal of Magnetic Helicity by CMEs Len Culhane Mullard Space Science Laboratory University College London.
Magnetic Helicity and Energetics in Solar Active Regions: Can we calculate them – why do we need them? Manolis K. Georgoulis JHU/APL Whistler, CA, 08/01/07.

Magnetic Helicity and Energetics in Solar Active Regions: Can we calculate them – why do we need them? Manolis K. Georgoulis JHU/APL Whistler, CA, 08/01/07.
Using Feature Tracking to Quantify Flux Cancellation Rates Evidence suggests that flux cancellation might play a central role in both formation and eruption.

Using Feature Tracking to Quantify Flux Cancellation Rates Evidence suggests that flux cancellation might play a central role in both formation and eruption.
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.
Modeling the Magnetic Field Evolution of the December 13 2006 Eruptive Flare Yuhong Fan High Altitude Observatory, National Center for Atmospheric Research.

Modeling the Magnetic Field Evolution of the December Eruptive Flare Yuhong Fan High Altitude Observatory, National Center for Atmospheric Research.
Magnetic Tongues, Magnetic Helicity and Twist in Active Regions. É. Pariat & P. Démoulin LESIA, CNRS, Observatoire de Paris, France Flux Emergence Workshop.

Magnetic Tongues, Magnetic Helicity and Twist in Active Regions. É. Pariat & P. Démoulin LESIA, CNRS, Observatoire de Paris, France Flux Emergence Workshop.
Photospheric Flows and Solar Flares Brian T. Welsch 1, Yan Li 1, Peter W. Schuck 2, & George H. Fisher 1 1 Space Sciences Lab, UC-Berkeley 2 Naval Research.

Photospheric Flows and Solar Flares Brian T. Welsch 1, Yan Li 1, Peter W. Schuck 2, & George H. Fisher 1 1 Space Sciences Lab, UC-Berkeley 2 Naval Research.
September 2006 CISM All Hand Meeting Properties of Solar Active Regions and Solar Eruptive Events Yang Liu -- Stanford University

September 2006 CISM All Hand Meeting Properties of Solar Active Regions and Solar Eruptive Events Yang Liu -- Stanford University
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.
How are photospheric flows related to solar flares? Brian T. Welsch 1, Yan Li 1, Peter W. Schuck 2, & George H. Fisher 1 1 SSL, UC-Berkeley 2 NASA-GSFC.

How are photospheric flows related to solar flares? Brian T. Welsch 1, Yan Li 1, Peter W. Schuck 2, & George H. Fisher 1 1 SSL, UC-Berkeley 2 NASA-GSFC.
MSU Team: R. C. Canfield, D. W. Longcope, P. C. H. Martens, S. Régnier Evolution on the photosphere: magnetic and velocity fields 3D coronal magnetic fields.

MSU Team: R. C. Canfield, D. W. Longcope, P. C. H. Martens, S. Régnier Evolution on the photosphere: magnetic and velocity fields 3D coronal magnetic fields.
1 SDO/HMI Products From Vector Magnetograms Yang Liu – Stanford University

1 SDO/HMI Products From Vector Magnetograms Yang Liu – Stanford University

Similar presentations

Ads by Google