2021
DOI: 10.3847/1538-4357/ac0339
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Confirmation of a Second Propeller: A High-inclination Twin of AE Aquarii

Abstract: For decades, AE Aquarii (AE Aqr) has been the only cataclysmic variable star known to contain a magnetic propeller: a persistent outflow whose expulsion from the binary is powered by the spin-down of the rapidly rotating, magnetized white dwarf. In 2020, LAMOST J024048.51+195226.9 (J0240) was identified as a candidate eclipsing AE Aqr object, and we present three epochs of time-series spectroscopy that strongly support this hypothesis. We show that, during the photometric flares noted by Thorstensen, the Balme… Show more

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Cited by 14 publications
(9 citation statements)
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“…Two subsequent studies have added additional weight to the connection between J0240+1952 and AE Aqr. Pretorius et al (2021) detected radio emission, with a radio luminosity close to the highest measured of any CV, higher even than AE Aqr, while Garnavich et al (2021) found that the Balmer emission lines broadened up to ±3000 km/s during flares, and showed that a P Cygni-like component in H𝛼, also seen by Thorstensen (2020), was consistent with Wynn et al (1997)'s magnetic propeller model.…”
Section: Introductionsupporting
confidence: 67%
See 1 more Smart Citation
“…Two subsequent studies have added additional weight to the connection between J0240+1952 and AE Aqr. Pretorius et al (2021) detected radio emission, with a radio luminosity close to the highest measured of any CV, higher even than AE Aqr, while Garnavich et al (2021) found that the Balmer emission lines broadened up to ±3000 km/s during flares, and showed that a P Cygni-like component in H𝛼, also seen by Thorstensen (2020), was consistent with Wynn et al (1997)'s magnetic propeller model.…”
Section: Introductionsupporting
confidence: 67%
“…Pretorius et al (2021) searched for optical pulsations down to a period of 10 s, but found no signals above their detection threshold of 1%. Finally, and most stringently of all, Garnavich et al (2021) presented 𝑔 and 𝑖-band photometry taken with the Hale 5 m telescope and Caltech HIghspeed Multi-color camERA (CHIMERA) which had the cadence and the signal-to-noise to detect spin periods with amplitudes as low as 4 mmag (0.43%) in the 𝑔-band over a period range of 6.3 to 85 s, but again found nothing of significance.…”
Section: Introductionmentioning
confidence: 96%
“…This means that J0240+19 is a high inclination system and explains why the He I λ6678 Å emission line briefly disappears at orbital phase 0. Additional photometric observations by Garnavich et al (2021) confirmed the high inclination of J0240+19, but did not detect the WD's spin period. The spin period was finally found by Pelisoli et al (2021) to be 24.9328(38) s with an amplitude of 0.2% in the g-band, which is below the detection limits of the previous searches.…”
Section: Introductionmentioning
confidence: 88%
“…The spectrum of J0240+19 obtained during the first observation is shown in Figure 1. This observation occured between orbital phases 0.70-0.78 using the ephemeris of Garnavich et al (2021). The average flux density and standard deviations for each frequency band are shown in black.…”
Section: Spectroscopymentioning
confidence: 96%
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