The Forecasting Solar Particle Events and Flares (FORSPEF) Tool

Similar documents
Cross-calibration of solar proton detectors

Monitoring solar energetic particles with ESA SREM units

Solar energetic particles and space weather

SOHO/ERNE proton event catalog: Progress results under the SEP origin project

Solar energetic particle forecasting algorithms and associated false alarms


The reported durations of GOES Soft X-Ray flares in different solar cycles

National Report Greece

International Journal of Scientific Research and Reviews

Automated Solar Flare Prediction: Is it a myth?

High-energy solar particle events in cycle 24

7-8 March 2012: a busy period in the geospace

FORECAST OF SOLAR PROTON EVENTS WITH NOAA SCALES BASED ON SOLAR X-RAY FLARE DATA USING NEURAL NETWORK

Solar Energetic Particle Events within the STEREO era:

An Automatic Segmentation Algorithm for Solar Filaments in H-Alpha Images using a Context-based Sliding Window

Recent Advances in Flares Prediction and Validation

Extreme CME Events from the Sun Nat Gopalswamy NASA/GSFC E. W. Cliver NSO. Space Climate 6, Levi, Finland April

NMDB - the European neutron monitor database

Simulation of the charging process of the LISA test masses due to solar particles.

The new SEP catalog from Wind/EPACT instrument

JOURNAL OF INTERNATIONAL ACADEMIC RESEARCH FOR MULTIDISCIPLINARY Impact Factor 1.625, ISSN: , Volume 2, Issue 10, November 2014

Development and Evaluation of an Automated System for Empirical Forecasting of Flares

arxiv: v2 [astro-ph.sr] 29 May 2015

SPARX: A modeling system for Solar Energetic Particle Radiation SpaceWeather forecasting

rising phase of solar cycle 24 based on

FARSIDE HELIOSEISMIC HOLOGRAPHY: RECENT ADVANCES

Coronal Mass Ejections and Extreme Events of Solar Cycle 23. Nat Gopalswamy NASA Goddard Space Flight Center Greenbelt, Maryland, USA

Space Weather Prediction using Soft Computing Techniques

Solar eruptive filament studies at USO for the COMESEP project

Short-Term Solar Flare Prediction Using Predictor

Activities of the Japanese Space Weather Forecast Center at Communications Research Laboratory

Automated Solar Activity Prediction: A hybrid computer platform using machine learning and solar imaging for automated prediction of solar flares

Magnetic Complexity in Eruptive Solar Active Regions and Associated Eruption Parameters

A. Aran 1, B. Sanahuja 1,2, D. Lario 3

Research Article On Some Properties of SEP Effective CMEs

Using the CME-index for short-term estimation of Ap geomagnetic index

Solar Energetic Particles measured by AMS-02


On the possibility to forecast severe radiation storms by data from surface and space-born facilities

Tracking Solar Eruptions to Their Impact on Earth Carl Luetzelschwab K9LA September 2016 Bonus

A NEW MODEL FOR REALISTIC 3-D SIMULATIONS OF SOLAR ENERGETIC PARTICLE EVENTS

LWS Workshop, Boulder March Work Supported by NASA/LWS

Unusually extreme cosmic ray events in July 2005

Long term data for Heliospheric science Nat Gopalswamy NASA Goddard Space Flight Center Greenbelt, MD 20771, USA

The Two Sources of Solar Energetic Particles

FALSE ALARMS IN THE FORECASTING OF SOLAR ENERGETIC PARTICLE EVENTS

Modelling magnetic fields in the corona using nonlinear force-free fields

Quantitative Forecasting of Major Solar Flares

Estimation of solar energetic proton mission integrated fluences and peak intensities for missions traveling close to the Sun

Effect of Halo Coronal Mass Ejection on Cosmic Ray Intensity and Disturbance Storm-Time index for the Ascending Phase of the Solar Cycle 24

Solar Particle Effects in Aircrew Dosimetry

Coronal Mass Ejections in the Heliosphere

Multi-wavelength VLA and Spacecraft Observations of Evolving Coronal Structures Outside Flares

Is the enhancement of type II radio bursts during CME interactions related to the associated solar energetic particle event?

Radoslav Bucik (MPS) in collaboration with Davina E. Innes (MPS) & Glenn M. Mason (JHU)

The Frequency Agile Solar Radiotelescope

A first step towards proton flux forecasting

Engineering Models for Galactic Cosmic Rays and Solar Protons: Current Status

arxiv: v1 [astro-ph.sr] 8 Dec 2016

A STATISTICAL STUDY ON CORONAL MASS EJECTION AND MAGNETIC CLOUD AND THEIR GEOEFFECTIVENESS

PREDICTING SOLAR PROTONS: A STATISTICAL APPROACH THESIS. Jonathan C. Spaulding, Captain, USAF AFIT/GAP/ENP/09-M09

CME linear-fit. 3. Data and Analysis. 1. Abstract

A universal characteristic of type II radio bursts

STCE Newsletter. 6 Jan Jan 2014

Ground Level Enhancement Events of Solar Cycle 23

RENEWAL: NEW ASPECTS OF ACCELERATION AND TRANSPORT OF SOLAR ENERGETIC PARTICLES (SEPS) FROM THE SUN TO THE EARTH

MODELING SOLAR UV/EUV IRRADIANCE AND IONOSPHERE VARIATIONS WITH MT. WILSON MAGNETIC INDICIES

In-Situ Signatures of Interplanetary Coronal Mass Ejections

The University of Bradford Institutional Repository

Probabilistic Modeling for Solar Energetic Particle Events

Automatic vs. Human detection of Bipolar Magnetic Regions: Using the best of both worlds. Michael DeLuca Adviser: Dr. Andrés Muñoz-Jaramillo

Visibility of coronal mass ejections as a function of flare location and intensity

CORONAL AND INTERPLANETARY TYPE II RADIO EMISSIONS

An X-ray Observations of A Gradual Coronal Mass Ejections (CMEs) on 15th April 2012

Solar Flare Prediction Using Discriminant Analysis

Publ. Astron. Obs. Belgrade No. 90 (2010), A CASE OF FILAMENT ACTIVE REGION INTERACTION

Numerical simulations of solar energetic particle event timescales associated with ICMEs

Numerical simulations of solar energetic particle event timescales associated with ICMES

Signatures of Geomagnetic Storms and Coronal Mass Ejections on Electron and Ion Temperatures At Low Latitude Upper Ionosphere

arxiv: v1 [astro-ph.sr] 22 Aug 2016

Database of Ground Level Enhancements (GLE) of high energy solar proton events

Statistical properties of the Bipolar Magnetic Regions

Particle acceleration in stressed coronal magnetic fields

Major solar energetic particle events of solar cycles 22 and 23: Intensities above the streaming limit

Test Particle Simulations of Solar Energetic Particles using Parker Spiral and ENLIL Fields

PHOEBUS: Space Weather su LISA Helios Vocca

Solar Flare Durations

INTERPLANETARY ASPECTS OF SPACE WEATHER

Gordon Petrie NSO, Boulder, Colorado, USA

Lecture 5 CME Flux Ropes. February 1, 2017

EFFECT OF SOLAR AND INTERPLANETARY DISTURBANCES ON SPACE WEATHER

A New JPL Interplanetary Solar HighEnergy Particle Environment Model

Extreme Solar Eruptions and their Space Weather Consequences

michele piana dipartimento di matematica, universita di genova cnr spin, genova

Z.H. Pan C.B. Wang Yuming Wang X.H. Xue

Commentary on Algorithms for Solar Active Region Identification and Tracking

The largest geomagnetic storm of solar cycle 23 occurred on 2003 November 20 with a

Microwave and hard X-ray imaging observations of energetic electrons in solar flares: event of 2003 June 17

Solar Transients P.K. Manoharan

High frequency of occurrence of large solar energetic particle events prior to 1958 and a possible repetition in the near future

Transcription:

.. The Forecasting Solar Particle Events and Flares (FORSPEF) Tool A. Anastasiadis 1, I. Sandberg 1, A. Papaioannou 1, M. K. Georgoulis 2, K. Tziotziou 1, G. Tsiropoula 1, D. Paronis 1, P. Jiggens 3, A. Hilgers 3 1 IAASARS, National Observatory of Athens, Greece 2 Academy of Athens, Research Center for Astronomy and Applied Mathematics, Greece 3 European Space Agency, European Research and Technology Center, The Netherlands

Background Solar Energetic Particle (SEP) events Desai and Burgess, 2008

Background How to forecast Solar flares and SEP events? Solar Particle Events Solar Flares Machine learning (Qahwaji & Colak 2007) Statistical methods (Wheatland, 2001) Morphological methods (Georgoulis, 2013) PPS (Shea & Smart, 1989) PROTONS (Balch, 1999; 2008) RELeASE (Posner, 2007) Laurenza s method (Laurenza, 2009) UMASEP (Nunez, 2011) COMESEP (comesep.eu, 2013) Probability of Occurrence Prediction of the max. flux Projected CME char. Probability of Occurrence Prediction of the max. flux SEP Flux profile

The FORSPEF system

The FORSPEF system Solar Flares (& Projected CME) Forecasting Magnetic connectivity matrix > The Solar Flare Prediction will rely primarily on the effective connected magnetic field strength (B eff ) prediction metric SDO/HMI Georgoulis & Rust, 2007; Gerogoulis, 2008; Tziotziou et al., 2012; 2013

> Flare & (Projected) CME prob. A pictorial output of the range of probabilities for different flare classes (red histogram). Also shown is the respective CME likelihood curve (blue histogram). The FORSPEF system Solar Flares (& Projected CME) Forecasting

The FORSPEF system SEP Forecasting & Nowcasting + > Given specific solar parameters (flare mag, CME width, velocity) identify the probability that an SEP event will occur Onset Peak Duration > Given a subset of flares and CMEs that do produce SEP events, how do the characteristics of the SEP event relate to those of the parent solar event?

The FORSPEF database SEP Forecasting & Nowcasting > The FORSPEF SEP database includes 314 SEP events, 20459 SFs ( C1.0) (from 1984-2013) and 3680 CMEs (from 1997 to 2013). Flares CME Sandberg et al., 2014; Papaioannou et al., 2015a 6 Indicators: Flares: flux, longitude, rise time, duration / CMEs: velocity, width; 2 Physical quantities: peak flux, fluence 4 Energy ranges: > 10; > 30; > 60; > 100 MeV

Actual Work Scheme The FORSPEF system Forecasting mode AR12157 AR12157 AR12157 Probabilities for Solar Flare Occurrence

Actual Work Scheme The FORSPEF system Forecasting mode AR12157 + FORSPEF database The FORSPEF database Probabilities folded with the FORSPEF database

Actual Work Scheme The FORSPEF system Nowcasting mode > SEP Nowcasting, offers - Probability of SEP occurrence for a given SF - The expected SEP characteristics

Actual Work Scheme Flux The FORSPEF system Nowcasting mode N=30/314 SEP events Time > SEP Nowcasting, offers - For a given SF, 30 historical SEP events from the FORSPEF database, closest in terms of the flare longitude and within one order of magnitude in the flare flux are chosen. - All SEP characteristics are calculated on the basis of this SEP events sub sample. > SEP Nowcasting, offers - Probability of SEP occurrence for a given SF - The expected SEP characteristics

Results Outputs of the system > Solar flare forecasting Pictorial outputs of the flare-prediction process with a 24- hour forecast window on a recent full-disk SDO/HMI magnetogram.

Results Outputs of the system >SEP Nowcasting Illustrations of the derived SEP characteristics for a given flare.

Conclusions > The FORSPEF system > Incorporates a novel method for the solar flare prediction and a new database of SEP events, solar flares and CMEs. > Provides forecasting of SEPs based on solar flare & projected CME characteristics (e.g. speed) > Offers a 24-hour forecast of SEP events, up to 70 o EW covering practically the entire course of the AR toward the limb (up to ~85 o ), under the assumption that the AR does not change significantly over this course. > FORSPEF has been released in April 2015 / info @ http://tromos.space.noa.gr/forspef

Thank you [web] http://tromos.space.noa.gr/forspef Acknowledgments: The research leading to these results has received funding from the European Space Agency, ESA Contract No. 4000109641/13/NL/AK

Back-up slides

The SOHO/MDI database Solar Flares (& Projected CME) Forecasting Magnetic connectivity matrix > The SOHO/MDI magnetogram sample used for the Solar Flare Prediction. > It covers Solar Cycle 23 and includes observations of 2736 days, 1416 ARs and 55691 individual magnetograms. Georgoulis, 2015

Actual Work Scheme The FORSPEF system l Using CMEs Nowcasting mode Without CME With CME

The FORSPEF database Statistical analysis l Solar Flares > X-ray flare flux versus flare longitude. The flares associated with SEP events are presented by the filled black circles and all other (non SEP flares) by the open red circles Belov et al., 2005 Papaioannou et al., 2015a

The FORSPEF database Statistical analysis l Solar Flares > Distribution of solar flare latitude (in degrees) as a function of the flare longitude (in degrees).the flares associated with SEP events are presented by the filled black circles and all other (non SEP flares) by the open red circles Papaioannou et al., 2015a

The FORSPEF database Statistical analysis l CMEs Med. < ~500 Km/s Med. > ~1000 Km/s > Distribution of the events as a function of the CME velocity [km/s]. 3522 events 158 events Kahler & Vourlidas, 2004 Gopalswamy et al., 2002

The FORSPEF database Statistical analysis l CMEs > Distribution of the events as a function of the CME width [degrees]. > Halo CMEs are better correlated to SEP events 3522 events 158 events Kahler, 2001 Kahler & Vourlidas, 2013 Shea and Smart, 1989

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback