TY - JOUR
T1 - RETURN of the KING
T2 - TIME-SERIES PHOTOMETRY of FO AQUARII'S INITIAL RECOVERY from ITS UNPRECEDENTED 2016 LOW STATE
AU - Littlefield, Colin
AU - Garnavich, Peter
AU - Kennedy, Mark R.
AU - Aadland, Erin
AU - Terndrup, Donald M.
AU - Calhoun, Grace V.
AU - Callanan, Paul
AU - Abe, Lyu
AU - Bendjoya, Philippe
AU - Rivet, Jean Pierre
AU - Vernet, David
AU - Devogéle, Maxime
AU - Shappee, Benjamin
AU - Holoien, Thomas
AU - Heras, Teófilo Arranz
AU - Bonnardeau, Michel
AU - Cook, Michael
AU - Coulter, Daniel
AU - Debackére, André
AU - Dvorak, Shawn
AU - Foster, James R.
AU - Goff, William
AU - Hambsch, Franz Josef
AU - Harris, Barbara
AU - Myers, Gordon
AU - Nelson, Peter
AU - Popov, Velimir
AU - Solomon, Rob
AU - Stein, William L.
AU - Stone, Geoff
AU - Vietje, Brad
N1 - Publisher Copyright:
© 2016. The American Astronomical Society. All rights reserved.
PY - 2016/12/10
Y1 - 2016/12/10
N2 - In 2016 May, the intermediate polar FO Aqr was detected in a low state for the first time in its observational history. We report time-resolved photometry of the system during its initial recovery from this faint state. Our data, which includes high-speed photometry with cadences of just 2 s, show the existence of very strong periodicities at 22.5 and 11.26 minutes, equivalent to the spin-orbit beat frequency and twice its value, respectively. A pulse at the spin frequency is also present but at a much lower amplitude than is normally observed in the bright state. By comparing our power spectra with theoretical models, we infer that a substantial amount of accretion was stream-fed during our observations, in contrast to the disk-fed accretion that dominates the bright state. In addition, we find that FO Aqr's rate of recovery has been unusually slow in comparison to rates of recovery seen in other magnetic cataclysmic variables, with an e-folding time of 115 ±7 days. The recovery also shows irregular variations in the median brightness of as much as 0.2 mag over a 10-day span. Finally, we show that the arrival times of the spin pulses are dependent upon the system's overall brightness.
AB - In 2016 May, the intermediate polar FO Aqr was detected in a low state for the first time in its observational history. We report time-resolved photometry of the system during its initial recovery from this faint state. Our data, which includes high-speed photometry with cadences of just 2 s, show the existence of very strong periodicities at 22.5 and 11.26 minutes, equivalent to the spin-orbit beat frequency and twice its value, respectively. A pulse at the spin frequency is also present but at a much lower amplitude than is normally observed in the bright state. By comparing our power spectra with theoretical models, we infer that a substantial amount of accretion was stream-fed during our observations, in contrast to the disk-fed accretion that dominates the bright state. In addition, we find that FO Aqr's rate of recovery has been unusually slow in comparison to rates of recovery seen in other magnetic cataclysmic variables, with an e-folding time of 115 ±7 days. The recovery also shows irregular variations in the median brightness of as much as 0.2 mag over a 10-day span. Finally, we show that the arrival times of the spin pulses are dependent upon the system's overall brightness.
KW - accretion, accretion disks
KW - binaries: eclipsing
KW - novae, cataclysmic variables
KW - stars: individual (FO Aqr)
KW - stars: magnetic field
KW - white dwarfs
UR - https://www.scopus.com/pages/publications/85006736245
U2 - 10.3847/1538-4357/833/1/93
DO - 10.3847/1538-4357/833/1/93
M3 - Article
AN - SCOPUS:85006736245
SN - 0004-637X
VL - 833
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1
M1 - 93
ER -