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Electronic Resource

OSO-7 observations of solar x-rays in the energy range 10–100 keV (1974)

Datlowe, D. W. ; Elcan, M. J. ; Hudson, H. S.

Springer

Solar physics 39 (1974), S. 155-174

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The solar X-ray experiment on the satellite OSO-7 has provided extensive observations of hard and soft X-ray bursts. We give a general description of the hard X-ray data here, in parallel with the description of the soft X-ray data already published (Datlowe et al., 1974). The data for this study consist of 123 hard X-ray bursts which occurred between 10 October 1971 and 6 June 1972. We examine the behavior of a typical event in terms of its spectral and flux variations. For the whole data sample, we find that 2/3 of the soft X-ray bursts have detectable hard X-ray emission. We present the distributions of frequency of occurrence of peak flux, spectral index, collisional energy loss, burst duration and the duration at half maximum of the flux profile. No correlation was found between the flux and the spectral slope of an individual data sample, nor was there a correlation between the peak flux and the full width at half maximum of a burst. We have utilized Hα flare identifications to study longitude variations. No statistically significant variation was found in the relative frequency of hard or soft X-ray bursts with longitude. However, the spectral slope does exhibit a center-to-limb variation, with limb spectra tending to be softer. We have compared the growth of energy in the hot flare plasma (soft X-ray source) with the collisional energy deposition (hard X-ray source) for the entire sample. This analysis shows that collision loss within the hot plasma is not the principal source of its heating.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00154978

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Observations of solar X-ray bursts in the energy range 5–15 keV (1974)

Datlowe, D. W. ; Hudson, H. S. ; Peterson, L. E.

Springer

Solar physics 35 (1974), S. 193-206

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Bursts of solar X-rays in the energy range 5–15 keV are associated with flares and are due to thermal emission from a hot coronal plasma. In this paper we present the results of the first study of a large sample of separate bursts, 197 events associated with subflares and a few importance 1 events. The observations were made by a proportional counter on the satellite OSO-7 from October 1971 to June 1972. In most cases the temperature characterizing the X-ray spectrum rises impulsively at the onset of the burst and then declines slowly throughout the remainder of the burst. The emission measure rises exponentially with a time scale of 30–100 s and then declines slowly, on a time scale of the order of 103 s. From these observations we show that the growth of the thermal energy in the flare plasma throughout the burst can be due to the heating of new cool material.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00156967

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Spectral development of a solar X-ray burst observed on OSO-7 (1973)

McKenzie, D. L. ; Datlowe, D. W. ; Peterson, L. E.

Springer

Solar physics 28 (1973), S. 175-185

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The UCSD solar X-ray instrument on the OSO-7 satellite observes X-ray bursts in the 2–300 keV range with 10.24 s time resolution. Spectra obtained from the proportional counter and scintillation counter are analyzed for the event of November 16, 1971, at 0519 UT in terms of thermal (exponential spectrum) and non-thermal (power law) components. The energy content of the approximately 20 × 106K thermal plasma increased with the 60 s duration hard X-ray burst which entirely preceded the 5 keV soft X-ray maximum. If the hard X-rays arise by thick target bremsstrahlung, the nonthermal electrons above 10 keV have sufficient energy to heat the thermally emitting plasma. In the thin target case the collisional energy transfer from non-thermal electrons suffices if the power law electron spectrum is extrapolated below 10 keV, or if the ambient plasma density exceeds 4 × 1010 cm−3.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00152922

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Does the emission measure decrease during the start of a soft X-ray flare? (1978)

Wolfson, C. J. ; Acton, L. W. ; Datlowe, D. W.

Springer

Solar physics 59 (1978), S. 373-376

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract Soft X-ray flare observations, interpreted as the emission from a single temperature plasma, frequently indicate a significant decrease in the inferred emission measure. It is shown that this effect results naturally from the isothermal assumption, and is eliminated when the preflare contribution to the total emission is removed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00951842

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Evidence for thin-target X-ray emission in a small solar flare on 26 February 1972 (1973)

Datlowe, D. W. ; Lin, R. P.

Springer

Solar physics 32 (1973), S. 459-468

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We compare solar X-ray observations from the UCSD experiment aboard OSO-7 with high resolution energetic electron observations from the UCAL experiment on IMP-6 for a small solar flare on 26 February 1972. A proportional counter and NaI scintillator covered the X-ray energy range 5–300 keV, while a semiconductor detector telescope covered electrons from 18 to ∼ 400 keV. A series of four non-thermal X-ray spikes were observed from 1805 to 1814 UT with average spectrum dJ/d (hv) ∼ (hv)−4.0 over the 14–64 keV range. The energetic electrons were observed at 1 AU beginning 1840 UT with a spectrum dJ/dE ∼ E −3.1. If the electrons which produce the X-ray emission and those observed at 1 AU are assumed to originate in a common source, then these observations are consistent with thin target X-ray production at the Sun and inconsistent with thick target production. Under a model consistent with the observed soft X-ray emission, we obtain quantitative estimates of the total energy, total number, escape efficiency, and energy lost in collisions for the energetic electrons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00154958

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