An Investigation into the Elementary Temporal Structure of Solar Flare Hard X-Ray Bursts Using BATSE

Details An Investigation into the Elementary Temporal Structure of Solar Flare Hard X-Ray Bursts Using BATSE An Investigation into the Elementary Temporal Structure of Solar Flare Hard X-Ray Bursts Using BATSE

May 1998

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998nasa.reptt....n&link_type=abstract

Technical Report, NASA/CR-1998-208174; NAS 1.26:208174

Computer Science

Solar Flares, X Rays, Gamma Ray Bursts, Temporal Resolution, Power Spectra, Particle Acceleration, Gamma Ray Spectra, Fine Structure, Sampled Data Systems, Emission

Scientific paper

The research performed under this contract is part of an on-going investigation to explore the finest time-resolution hard X-ray data available on solar flares. Since 1991, the Burst and Transient Source Experiment (BATSE) aboard the Compton Gamma Ray Observatory has provided almost continual monitoring of the Sun in the hard X-ray and gamma-ray region of the spectrum. BATSE provides for the first time a temporal resolution in the data comparable to the timescales on which flare particle energization occurs. Under this contract, we have employed an important but under-utilized BATSE data type, the Time-To-Spill (TTS) data, to address the question of how fine a temporal structure exists in flare hard X-ray emission. By establishing the extent to which "energy release fragments," or characteristic (recurrent) time structures, are building blocks of flare emission, it is possible to place constraints on particle acceleration theories. We have utilized a spectral estimation technique, known as Lomb's normalized periodogram, to overcome the challenge of computing the power spectra of the unevenly sampled TTS data. By comparing the flare's power spectra to the expected power arising from Poisson noise, we obtain measurements of the smallest, statistically significant timescales present in the data. We have found, in an initial sample of 100 flares, that the smallest statistically significant timescales detected in a single flare are: 89 ms (30 May 1991 11:26:06) in channel 0, 117 ms (17 May 1991 09:03:20) in channel 1, 167 ms (31 May 1991 16:53:12) in channel 2, and 1.55 s (06 June 1991 01:02:08) in channel 3. We have also found some evidence for the existence of preferred timescales, however, the significance of this finding awaits a larger sample of flares.

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