DK Lacertae

DK Lacertae
Location of DK Lacertae (circled in red)
Observation data
Epoch J2000      Equinox J2000
Constellation Lacerta
Right ascension 22h 49m 46.93149s[1]
Declination +53° 17′ 19.7993″[1]
Apparent magnitude (V) 5.0 – 15.5[2] (var.)
Characteristics
Variable type classical nova[2]
Astrometry
Proper motion (μ) RA: −1.945[1] mas/yr
Dec.: −1.722[1] mas/yr
Parallax (π)0.4026 ± 0.0697 mas[1]
Distance2517+788
−261[3] pc
Details
DK Lac B
Mass1.03[4] M
Other designations
Nova Lacertae 1950, DK Lac, AAVSO 2245+52, 2MASS J22494690+5317192. Gaia DR2 2002440098459791744[5]
Database references
SIMBADdata
The light curve of DK Lacertae, plotted from AAVSO data. Note the post outburst "jitters" (local maxima) during 1950.

DK Lacertae (Nova Lacertae 1950) was a nova, which lit up in the constellation Lacerta in 1950. The nova was discovered by Charles Bertaud of the Paris Observatory on a photographic plate taken on 23 January 1950. At the time of its discovery, it had an apparent magnitude of 6.1.[6] DK Lacertae reached peak magnitude 5.0, making it easily visible to the naked eye.[2]

DK Lacertae's post-eruption light curve was remarkable for the large number of outbursts of a magnitude or more which occurred in the months after the main nova event.[7][8] Strope et al. (2010) reported that there were 14 of these "jitters" in the light curve, and they used this star as the prototype object for their type J light curve class.[9] It took about 60 days for the nova to drop from peak brightness by 3 magnitudes, which makes DK Lacertae a "fast" nova.[10]

X-ray emission has been detected from this system.[11]

All novae are binary stars, with a "donor" star orbiting a white dwarf. The donor star is so close to the white dwarf that matter is transferred from the donor to an accretion disk surrounding the white dwarf. In the case of DK Lacertae, Shara et al. (2018) estimate that the white dwarf has a mass of 1.03M and the donor star is transferring 3.4 × 10−8 M yr−1 to the accretion disk.[4] The orbital periods of nova are typically a few hours, but no photometric periodicity on that timescale has been found for DK Lac, suggesting that we are viewing the accretion disk nearly face-on.[12]

A faint shell was detected around the source in 1995, with a radius of about 2.0–2.5,[13] but later observations with the Hubble Space Telescope failed to detect the shell.[14]

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