2005
DOI: 10.1103/physrevlett.95.139903
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Erratum: Upper Limits on Gravitational-Wave Emission in Association with the 27 Dec 2004 Giant Flare of SGR1806-20 [Phys. Rev. Lett.95, 081103 (2005)]

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Cited by 15 publications
(17 citation statements)
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“…However, the only other published GW search associated with the SGR 1806 ÿ 20 hyperflare used the AURIGA bar detector [42] to place upper limits on the GW waveform strength emitted for frequencies around 900 Hz. At the time of the event, H1's strain noise equivalent in the 900 Hz region was a factor 5 lower than AURIGA's.…”
Section: Discussionmentioning
confidence: 99%
“…However, the only other published GW search associated with the SGR 1806 ÿ 20 hyperflare used the AURIGA bar detector [42] to place upper limits on the GW waveform strength emitted for frequencies around 900 Hz. At the time of the event, H1's strain noise equivalent in the 900 Hz region was a factor 5 lower than AURIGA's.…”
Section: Discussionmentioning
confidence: 99%
“…No signal was seen, allowing upper limits on the gravitational energy emitted in the flare to be placed of O(10 −8 M c 2 ), comparable to the electromagnetic energy emitted by the galactic neutron star (see also ref. [241] for a search in Auriga data). Other searches for soft gamma ray repeaters have been carried out in S5 data [242], and a special search [243] was carried out for the 2006 storm of SGR 1900+14 [244], using stacking of LIGO data for individual bursts in the storm.…”
Section: Triggered Burst Searchesmentioning
confidence: 99%
“…An upper limit of E gw < 7.7 × 10 46 erg was achieved around the 92.5 Hz QPO, with a significantly weaker constraint placed in the kHz range where one expects the f -mode. The most sensitive gravitational wave search of the giant flare was from the AURIGA bar detector (Baggio et al 2005). They searched for exponentially decaying signals (with decay time 0.1 s) in a small frequency band around 900 Hz.…”
Section: Current Observational Limitsmentioning
confidence: 99%