The pulse scale conjecture and the case of batse trigger 2193
Document Type
Article
Publication Date
12-1-2000
Abstract
The pulses that compose gamma-ray bursts (GRBs) are hypothesized to have the same shape at all energies, differing only by scale factors in time and amplitude. This "pulse scale conjecture" is confirmed here between energy channels of the dominant pulse in GRB 930214c (BATSE trigger 2193), the single most fluent single-pulsed GRB that occurred before 1998 May. Furthermore, pulses are hypothesized to start at the same time, independent of energy. This "pulse start conjecture" is also confirmed in GRB 930214c. Analysis of GRB 930214c also shows that, in general, higher energy channels show shorter temporal scale factors. Over the energy range 100 keV-1 MeV, it is found that the temporal scale factors between a pulse measured at different energies are related to that energy by a power law, possibly indicating a simple relativistic mechanism is at work. To test robustness, the pulse start and pulse scale conjectures were also tested on the four next most fluent single-pulse GRBs. Three of the four clearly passed, with a second smaller pulse possibly confounding the discrepant test. Models where the pulse rise and decay are created by different phenomena and do not typically predict pulses that satisfy both the pulse start conjecture and the pulse scale conjecture, unless both processes are seen to undergo common time dilation.
Publication Title
Astrophysical Journal
Recommended Citation
Nemiroff, R.
(2000).
The pulse scale conjecture and the case of batse trigger 2193.
Astrophysical Journal,
544(2 PART 1), 805-810.
http://doi.org/10.1086/317230
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/9543