Mars Odyssey/HEND and RHESSI

From RHESSI Wiki

(Difference between revisions)
Jump to: navigation, search
(adding figures)
(added Fig. 2)
Line 39: Line 39:
This routinely happens, of course, because roughly half of all flares occur on the invisible hemisphere of the Sun; there is a good chance that a deep-space mission such as Mars Odyssey can have them in sight.
This routinely happens, of course, because roughly half of all flares occur on the invisible hemisphere of the Sun; there is a good chance that a deep-space mission such as Mars Odyssey can have them in sight.
An example of such an event was a flare of 27 October 2002, which was fully on the invisible side of the Sun, and we illustrate this in detail in Figure 2.
An example of such an event was a flare of 27 October 2002, which was fully on the invisible side of the Sun, and we illustrate this in detail in Figure 2.
 +
Whereas GOES recorded only a very faint flare at this time, HEND observed an enormous
 +
flare that was one of the largest in Cycle 23.
 +
This follows from fact that its maximum flux at 100 keV was comparable with that from the great flare
 +
SOL2001-08-25T16:30, while its duration in this energy range was several times longer
 +
However, the flare under discussion was weaker than the very powerful flare SOL2003-10-28.
 +
It is clear the flare of 27 October 2002 occurred behind the solar limb.
 +
But how far? The active region number 10180, where the flare,
 +
probably, occurred, had passed the central solar meridian on November 6.
 +
The information about the
 +
location of the Earth and Mars suggests that the flare was 42 degrees behind the eastern limb for the
 +
observer on the Earth.
 +
For Mars Odyssey, it was on the solar disk near the western limb.
[[File:202f2.png|right|thumb|600px|Figure 1:  
[[File:202f2.png|right|thumb|600px|Figure 1:  
A flare (SOL2002-10-27) fully on the invisible hemisphere, but perfectly visible to HEND.
A flare (SOL2002-10-27) fully on the invisible hemisphere, but perfectly visible to HEND.
 +
(a) Spectral time profiles from HEND; (b) spectra integrated for one minute near the maximum of the
 +
event; (c) soft X-ray source (6-12 keV) appearing ''over'' the solar limb as observed by RHESSI; (d) comparison with
 +
[http://solar.nro.nao.ac.jp/norh/ Nobeyama] radio observations: red line, the HEND inner scintillator; blue line, the time profile at 1 GHz from Nobeyama.
]]
]]
-
 

Revision as of 16:13, 2 June 2013


Nugget
Number: 200
1st Author: V. Vybornov
2nd Author: M. Livshits
Published: June 10, 2013
Next Nugget:
Previous Nugget: Hard X-rays in Descent
List all



Introduction

Mars Odyssey may be little-known to solar physicists, but its HEND (High-Energy Neutron Detector) readily detects solar flares. Generally, flare observations are performed from the Earth or near-Earth orbits. However, there are space missions that operate at various ecliptic longitudes and latitudes in interplanetary space; these can provide different vantage points for solar observations. HEND recorded hard X-ray and gamma-radiation from 40 keV to 2 MeV (Ref. [1]), as a part of the Mars Odyssey mission, and observed solar flares from the middle of 2001 up to 2011. The main working parts of HEND comprise an outer scintillation counter of CsI (energy band from 40 to 1000 keV) plus an inner plastic one, (Stilbene) for the range 300 – 2000 keV. Two types of data are available: the time profiles from the outer and inner scintillators with a resolution of 0.25 s (near 80 keV) and 1 s (near 330 keV) respectively, and spectral data with a resolution of 20 s in 15 energy channels from both scintillators.

In this Nugget we discuss observations of flares visible from the Earth, as a check on the HEND calibrations, and then show observations from the solar hemisphere (the "backside") invisible from Earth.

Simultaneous HEND and RHESSI observations

The HEND observations of flares on the visible hemisphere basically just supplement the data obtained by other missions on near-Earth orbits, but they may fill in vital gaps in these data. Figure 1 shows an example of a flare observed by both HEND and RHESSI.

Figure 1: A flare well-observed by both HEND and RHESSI, showing good agreement between RHESSI (65-275 keV in black, and HEND (~80 keV, in red). Flare SOL2003-06-17.

We are particularly concerned with HEND data on energetic solar flares for which the RHESSI or other observations happen not to be available. This routinely happens, of course, because roughly half of all flares occur on the invisible hemisphere of the Sun; there is a good chance that a deep-space mission such as Mars Odyssey can have them in sight. An example of such an event was a flare of 27 October 2002, which was fully on the invisible side of the Sun, and we illustrate this in detail in Figure 2. Whereas GOES recorded only a very faint flare at this time, HEND observed an enormous flare that was one of the largest in Cycle 23. This follows from fact that its maximum flux at 100 keV was comparable with that from the great flare SOL2001-08-25T16:30, while its duration in this energy range was several times longer However, the flare under discussion was weaker than the very powerful flare SOL2003-10-28. It is clear the flare of 27 October 2002 occurred behind the solar limb. But how far? The active region number 10180, where the flare, probably, occurred, had passed the central solar meridian on November 6. The information about the location of the Earth and Mars suggests that the flare was 42 degrees behind the eastern limb for the observer on the Earth. For Mars Odyssey, it was on the solar disk near the western limb.

Figure 1: A flare (SOL2002-10-27) fully on the invisible hemisphere, but perfectly visible to HEND. (a) Spectral time profiles from HEND; (b) spectra integrated for one minute near the maximum of the event; (c) soft X-ray source (6-12 keV) appearing over the solar limb as observed by RHESSI; (d) comparison with Nobeyama radio observations: red line, the HEND inner scintillator; blue line, the time profile at 1 GHz from Nobeyama.


References

[1] Maps of Subsurface Hydrogen from the High Energy Neutron Detector, Mars Odyssey

Personal tools
Namespaces
Variants
Actions
Navigation
Toolbox