Constraints on Particle Acceleration from Interplanetary Observations R. P. Lin together with L. Wang, S. Krucker at UC Berkeley, G Mason at U. Maryland,

Slides:

Advertisements

Similar presentations

RHESSI Investigations of the Neupert Effect in Solar Flares Brian R. Dennis AAS/SPD Meeting 6 June 2002.

Advertisements

NBYM 2006 A major proton event of 2005 January 20: propagating supershock or superflare? V. Grechnev 1, V. Kurt 2, A. Uralov 1, H.Nakajima 3, A. Altyntsev.

Masuda Flare: Remaining Problems on the Looptop Impulsive Hard X-ray Source in Solar Flares Satoshi Masuda (STEL, Nagoya Univ.)

Thick Target Coronal HXR Sources Astrid M. Veronig Institute of Physics/IGAM, University of Graz, Austria.

On the link between the solar energetic particles and eruptive coronal phenomena On the link between the solar energetic particles and eruptive coronal.

THREE-DIMENSIONAL ANISOTROPIC TRANSPORT OF SOLAR ENERGETIC PARTICLES IN THE INNER HELIOSPHERE CRISM- 2011, Montpellier, 27 June – 1 July, Collaborators:

Energy Release and Particle Acceleration in Solar Flares Nicole Vilmer LESIA-Observatoire de Paris VII COLAGE-Atibaia 01/04/04.

R. P. Lin Physics Dept & Space Sciences Laboratory University of California, Berkeley The Solar System: A Laboratory for the Study of the Physics of Particle.

Solar flares and accelerated particles

Hot Precursor Ejecta and Other Peculiarities of the 2012 May 17 Ground Level Enhancement Event N. Gopalswamy 2, H. Xie 1,2, N. V. Nitta 3, I. Usoskin 4,

Microwave and hard X-ray imaging observations of energetic electrons in solar flares: event of 2003 June 17 Kundu, M R., Schmahl, E J, and White, S M.

Particle Acceleration in Solar Energetic Particle (SEP) Events and Solar Flares R. P. Lin Physics Department & Space Sciences Laboratory University of.

The Focusing Optics X-ray Solar Imager (FOXSI) Steven Christe 1, S. Krucker 2, L. Glesener 2, S. Ishikawa 3, B. Ramsey 4, T. Takahashi 3, R.P. Lin 2 1.

Hard X-Ray Footpoint Motion in Spectrally Distinct Solar Flares Casey Donoven Mentor Angela Des Jardins 2011 Solar REU.

Relations between concurrent hard X-ray sources in solar flares M. Battaglia and A. O. Benz Presented by Jeongwoo Lee NJIT/CSTR Journal Club 2007 October.

RHESSI 2003 October 28 Time Histories Falling fluxes following the peak Nuclear/511 keV line flux delayed relative to bremsstrahlung Fit to 511 keV line.

CME Workshop Elmau, Feb , WORKING GROUP C: ENERGETIC PARTICLE OBSERVATIONS Co-Chairs: Klecker, Kunow SUMMARY FROM WORKSHOP 1 Observations Questions.

RHESSI Observations of Gamma- Ray Lines from Solar Flares Albert Y. Shih 1, David M. Smith 2, Robert P. Lin 1, Richard A. Schwartz 3, Gerald H. Share 4,

+ Hard X-Ray Footpoint Motion and Progressive Hardening in Solar Flares Margot Robinson Mentor: Dr. Angela DesJardins MSU Solar Physics Summer REU, 2010.

X-Ray Observation and Analysis of a M1.7 Class Flare Courtney Peck Advisors: Jiong Qiu and Wenjuan Liu.

Working Group 2 - Ion acceleration and interactions.

9th RHESSI Workshop, Sept. 1-5, 2009, Genova On Broken-up Spectra of RHESSI Flares Y. P. Li & W. Q. Gan Purple Mountain Observatory.

RHESSI Observations of the 29-Oct-2003 Flare. 29-Oct-2003 General Info 29-OCT-03 GOES Start: 20:37, Peak: 20:49, End 21:01 Size X10 Position S19W09 (AR486)

Hard X-ray footpoint statistics: spectral indices, fluxes, and positions Pascal Saint-Hilaire 1, Marina Battaglia 2, Jana Kasparova 3, Astrid Veronig 4,

3 November 2003 event HXR/Gamma-ray and radio observations Rhessi_workshop.

Uses of solar hard X-rays Basics of observations Hard X-rays at flare onset The event of April 18, 2001 Conclusions ITP Santa Barbara, Jan. 18, 2002Hugh.

Search for X-ray emission from coronal electron beams associated with type III radio bursts Pascal Saint-Hilaire, Säm Krucker, Robert P. Lin Space Sciences.

Uses of solar hard X-rays Basics of observations Hard X-rays at flare onset The event of April 18, 2001 Conclusions Yohkoh 10th Jan. 21, 2002Hugh Hudson,

RHESSI observations of LDE flares – extremely long persisting HXR sources Mrozek, T., Kołomański, S., Bąk-Stęślicka, U. Astronomical Institute University.

Temporal Variability of Gamma- Ray Lines from the X-Class Solar Flare of 2002 July 23 Albert Y. Shih 1,2, D. M. Smith 1, R. P. Lin 1,2, S. Krucker 1, R.

GLOBAL ENERGETICS OF FLARES Gordon Emslie (for a large group of people)

Hard X-ray Diagnostics of Solar Eruptions H. Hudson SSL, UC Berkeley and U. Of Glasgow.

Confirmation of extended annihilation-line emission in 2005 January 20 flare: Earth occultation. DayNight.

SSL UC Berkeley 2010 June ACE/SOHO/STEREO/Wind Workshop When and Where are Impulsive SEPs Accelerated? Linghua Wang, Bob Lin, S ä m Krucker Space Sciences.

Late-phase hard X-ray emission from flares The prototype event (right): March 30, 1969 (Frost & Dennis, 1971), a very bright over-the-limb event with a.

Group V: Report Regular Members: K. Arzner, A. Benz, C. Dauphin, G. Emslie, M. Onofri, N. Vilmer, L. Vlahos Visitors: E. Kontar, G. Mann, R. Lin, V. Zharkova.

Magnetic Reconnection Rate and RHESSI Hard X-Ray Imaging Spectroscopy of Well Resolved X-class Flares Yan Xu, Ju Jing, Wenda Cao, and Haimin Wang.

Magnetic Reconnection Rate and Energy Release Rate Jeongwoo Lee 2008 April 1 NJIT/CSTR Seminar Day.

White-Light Flares via TRACE and RHESSI: Death to the thick target? H. Hudson, plus collaboration with J. Allred, I. Hannah, L. Fletcher, T. Metcalf, J.

Co-spatial White Light and Hard X-ray Flare Footpoints seen above the Solar Limb: RHESSI and HMI observations Säm Krucker Space Sciences Laboratory, UC.

Spatially Resolved Spectral Analysis of Gradual Hardening Flare Takasaki H., Kiyohara J. (Kyoto Univ.), Asai A., Nakajima H. (NRO), Yokoyama T. (Univ.

Thermal, Nonthermal, and Total Flare Energies Brian R. Dennis RHESSI Workshop Locarno, Switzerland 8 – 11 June, 2005.

Loop-top altitude decrease in an X-class flare A.M. Veronig 1, M. Karlický 2,B. Vršnak 3, M. Temmer 1, J. Magdalenić 3, B.R. Dennis 4, W. Otruba 5, W.

The Relation between Soft X-ray Ejections and Hard X-ray Emission on November 24 Flare H. Takasaki, T. Morimoto, A. Asai, J. Kiyohara, and K. Shibata Kwasan.

Lyndsay Fletcher, University of Glasgow Ramaty High Energy Solar Spectroscopic Imager Fast Particles in Solar Flares The view from RHESSI (and TRACE) MRT.

Solar Energetic Particle Events: An Overview Christina Cohen Caltech.

IHY Workshop A PERSONAL VIEW OF SOLAR DRIVERS for Solar Wind Coronal Mass Ejections Solar Energetic Particles Solar Flares.

RHESSI and Radio Imaging Observations of Microflares M.R. Kundu, Dept. of Astronomy, University of Maryland, College Park, MD G. Trottet, Observatoire.

Coronal hard X-ray sources and associated decimetric/metric radio emissions N. Vilmer D. Koutroumpa (Observatoire de Paris- LESIA) S.R Kane G. Hurford.

Outstanding Issues Gordon Holman & The SPD Summer School Faculty and Students.

Studies on the 2002 July 23 Flare with RHESSI Ayumi ASAI Solar Seminar, 2003 June 2.

1 20 January 2005: Session Summary SHINE 2006 Zermatt, Utah, 31 July - 4 August Invited Talks Riley: what was the Alfven speed in the corona at.

Project: Understanding propagation characteristics of heavy ions to assess the contribution of solar flares to large SEP events Principal Investigator:

SH 51A-02 Evolution of the coronal magnetic structures traced by X-ray and radio emitting electrons during the large flare of 3 November 2003 N.Vilmer,

Hard X-ray and radio observations of the 3 June 2007 flare Nicole Vilmer Meriem Alaoui Abdallaoui Solar Activity during the Onset of Solar Cycle

Joint session WG4/5 Points for discussion: - Soft-hard-soft spectral behaviour – again - Non-thermal pre-impulsive coronal sources - Very dense coronal.

Properties of CME Acceleration in the Low Corona Jie Zhang George Mason University SHINE June 28 – July 2, 2004 Big Sky - Montana Address.

Ion Acceleration in Solar Flares Determined by Solar Neutron Observations 2013 AGU Meeting of the Cancun, Mexico 2013/05/15 Kyoko Watanabe ISAS/JAXA,

Coronal X-ray Emissions in Partly Occulted Flares Paula Balciunaite, Steven Christe, Sam Krucker & R.P. Lin Space Sciences Lab, UC Berkeley limb thermal.

2. Data3. Results full disk image (H  ) of the flare (Sartorius Telescope) NOAA Abstract Preflare Nonthermal Emission Observed in Microwave and.

Coronal hard X-ray sources and associated radio emissions N. Vilmer D. Koutroumpa (Observatoire de Paris- LESIA; Thessaloniki University) S.R Kane G. Hurford.

Dong Li Purple Mountain Observatory, CAS

Physics of Solar Flares

Marina Battaglia, FHNW Säm Krucker, FHNW/UC Berkeley

N. Giglietto (INFN Bari) and

A SOLAR FLARE is defined as a

Corona Mass Ejection (CME) Solar Energetic Particle Events

Coronal and interplanetary radio emission as a tracer of solar energetic particle propagation Karl-Ludwig Klein (F Meudon)

SMALL SEP EVENTS WITH METRIC TYPE II RADIO BURSTS

Nonthermal Electrons in an Ejecta Associated with a Solar Flare

Presentation transcript:

Constraints on Particle Acceleration from Interplanetary Observations R. P. Lin together with L. Wang, S. Krucker at UC Berkeley, G Mason at U. Maryland, and R. Mewaldt at Caltech

Krucker and Lin 2002

Electron - 3 He-rich SEP events - ~1000s/year at solar maximum - dominated by: - electrons of ~0.1 (!) to ~100 keV energy - 3 He ~10s keV/nuc to ~MeV/nuc x10-x10 4 (!) enhancements - heavy nuclei: Fe, Mg, Si, S enhancements - high charge states - associated with: - small flares/coronal microflares - Type III radio bursts - Impulsive soft X-ray bursts (so also called Impulsive SEP events )

L=v(t-to) or L/v=t-to ~ 0.05 MeV/nuc - 1/v of 3 He (Mason & Mazur) ~1.5 MeV/nuc - 1/v for Electrons / Electrons 0.14–13 keV Electrons 20 – 350 keV Ions ~ 0.5 – 1 MeV

Electron spectrum at 1AU Typical electron spectrum can be fitted with broken power law: Break around: keV Steeper at higher energies Oakley, Krucker, & Lin 2004

Comparing spectra PHOTON SPECTRA: Power law fit to HXR spectra averaged over peak ELECTRON SPECTRA: Power law fit to peak flux Assuming power spectra: THIN: d = g – 1 THICK: d = g + 1 RESULTS: 1)correlation seen 2)values are between

Wang, Krucker, Lin, & Gosling, 2005

Wang, Krucker, Lin, & Gosling 2005

The Sun is the most energetic particle accelerator in the solar system: - Ions up to ~ 10s of GeV - Electrons up to ~100s of MeV Acceleration to these energies occurs in transient energy releases, in two (!) processes: - Large Solar Flares, in the lower corona - Fast Coronal Mass Ejections (CMEs), in the inner heliosphere, ~2-40 solar radii

X-Class Flare of 2002 July 23 00:27:20–00:43:20 UT GOES X4.8 Location: S13E72 (Lin et al. 2003)

RHESSI Gamma-Ray Flares 2002 July 23X June 17M October 28X October 29X November 2 X November 3 X November 10 X January 15X January 17X January 19X January 20X7.1 Ramaty High Energy Solar Spectroscopic Imager (RHESSI)

Mewaldt et al 2005

(Mewaldt et al. 2005)

Oct. 28, 2003, RHESSI solar count spectrum from 11:06:20 – 11:10:04 (Smith et al. 2004, Share et al. 2004) e + - e - n-capture bremsstrahlung narrow lines broad lines

Murphy 2004

Energetic Proton Power-law Exponents 28 Oct 03 2 Nov 03 S16E08 S15W56 γ-ray lines Energy range γ-ray (SEP) γ-ray (SEP) Ne/C+O 2-20 MeV (1.3) (1.7) e+/C+O MeV (2.0) (2.8) n-capt/C+O MeV (2.5) (3.0)

GOES soft X-rays RHESSI 2.2 MeV line RHESSI keV RHESSI hard X-rays WIND/WAVES radio WIND/3DP electrons

20 Jan 05 Flare RHESSI Gamma-ray Spectrum - 20 Jan 05 Flare

In the Jan 20 Event the high energy particle-intensities reach Earth just minutes after the x-rays from the flare

RHESSI X-ray imaging during HXR peak: X-ray imaging Two ribbon flare with HXR footpoints (contours) with thermal loop (image)

Initial flare phase: GOES SXI & RHESSI enhanced SXR emission Dimming After 06:40, HXR footpoints dominate 6:40:30

Timing Red line (06:48UT): Solar release time derived from onsets at 1 AU assuming first arriving particles travel with the speed of light along L=1.2 AU LASCO (06:54UT): Around ~3 solar radii; lines show height assuming a constant velocity. For v=2500km/s, CME could be at ~1.5 solar radius at particle release time. Red crosses: Rising SXR loops (top of SXI emission) 2.2 MeV peaks at 06:47:30UT HXRs peak at 06:45:00UT