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Coronal IP Shocks Nat Gopalswamy NASA/GSFC. Sun. Elmau CME Workshop, 2003 February 7 Plenary talk. Earth. Plan of the talk. Type II bursts & CMEs Type II bursts, SEPs & CMEs Metric & IP type II bursts Wind/WAVES & SOHO/LASCO Data IP: 15 MHz – 20 kHz (3Ro – 1 AU); 15-1MHz DH. - PowerPoint PPT Presentation
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Coronal IP ShocksNat Gopalswamy NASA/GSFC
Elmau CME Workshop, 2003 February 7 Plenary talk
Sun
Earth
Plan of the talk
• Type II bursts & CMEs• Type II bursts, SEPs &
CMEs• Metric & IP type II bursts
Wind/WAVES & SOHO/LASCO Data
IP: 15 MHz – 20 kHz (3Ro – 1 AU); 15-1MHz DH
Type II Radio Bursts• Discovered by Payne-Scott et al. (1947) at metric
wavelengths (<150 MHz). - Malitson et al. (1973) in the IP medium using spaceborne
radio instruments(see reviews by Cane, Reiner, Gopalswamy in AGU monograph 119)
• Plasma Emission Process is responsible:- [ Fast CMEs drive] MHD shocks- Shock accelerates electrons (~10 keV)- Nonthermal electrons generate Langmuir waves at local
plasma frequency (fp)- Langmuir waves scatter off of ions or combine to produce
radio emission at fp (fundamental) and 2fp (harmonic)
Radio Sky
Interplanetary(bounded by Red lines)
coronal
Nelson & Labrum, 1985)
LASCO CME DH Type II
Type II
SA Event (Type III Bursts)
F
H
CME-driven metric & DH type II
An IP Type II & its CME
Type II
f = 3MHz n = 2.8x104 cm-3
(harmonic emission)
Type II bursts track the CME through the IP medium
Type III
DH Type II burst starts when the CME reaches ~ 2 Ro
• The RAD2 spectral range (14-1 MHz) Wind/WAVES correspond to 2-10 Ro Type II bursts can identify shock-driving CMEs in the near-Sun IP medium.
• Too much delay: due to accelerating CMEs
• CME delay: Disk events
All, FW &DH CMEs
• > 5000 CMEs during 1996-2000• ~150 Fast & Wide (FW) CMEs• ~150 DH Type II bursts• ~ 50 FW frontside western
CMEs• ~ 50 Major SEP events• 1-3% of all CMEs are
important for SEPs• Electron accelerators are also
ion accelerators
• DH type IIs, fast and wide CMEs and major SEP events: similar solar-cycle variation.
• Close correlation implies physical relationship: the same CME-driven shock accelerates electrons that produce DH type II bursts, and SEPs.
• The number of DH type II bursts is the largest because eastern events are also included.
• Minor differences due to other parameters like Alfven speed.
Solar Cycle Variation of Energetic Events
Speeds of CMEs associated with Metric & DH type IIs
Average CME speeds increase in this order:
. General population (G)
. Metric type II related (M)
. DH type II related (D)
Similar tendency for widthand acceleration of CMEs
D
M
G
Lara et al. 2003, GRL, in press
Since DH type II bursts are 100% associated with CMEs, these propertiessuggest that metric type IIs are also due to CMEs, but less energetic
Two Shocks from the same source?
• “Alfven-speed hump” expected based on B, n profiles in the quiet corona (Hollweg, 1978; Krogulec et al, 1994; Mann et al. 1999)
• Include active region: 3 regions of interest (Gopalswamy et al. 2001)
• Easy to drive shocks on either side of the “Alfven-speed hump” Gopalswamy et al. JGR (2001).
• Easier to shock the corona in the transverse direction? (Gopalswamy, Kaiser & Pick, 2000).
• Type IIs occurring to the right of the hump are likely to be strong and indicative of IP shocks.
Metric domain
fp
Example of the metric – DH type II (02/12/22)
Hiraiso – metric type II
WAVES type II
The CME propagatesthru a tenuous medium where Va is expected to be high
Summary• Any short-lived driver with ~ 350 km/s may drive a shock close to
the Sun, but not beyond.• Blast wave: 1. Speed declines with time, 2. Weakens further at the
Alfven speed hump. (No blast waves observed in situ; “driver-less” shocks are due to limb CMEs!)
• CME-driven: 1. CMEs accelerate low in the corona.2. Depending on CME speed and initial height, CME can drive shocks
in the corona & IP medium (cause metric & IP type II)3. CME can drive a shock in the metric corona, lose it around Va peak
and drive again in the IP medium. If it does not drive again (CMEs of moderate speed), situation similar to blast wave.
4. Solar wind works against shock-driving capacity of CMEs in the IP medium
5. SEP release height (Kahler et al., 1994) coincides with Va peak
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