TITLE: GCN CIRCULAR NUMBER: 34041 SUBJECT: ZTF23aaoohpy/AT2023lcr: Keck/LRIS spectroscopy and redshift DATE: 23/06/20 18:20:09 GMT FROM: Daniel Perley at Liverpool JMU Daniel A. Perley (LJMU), Igor Andreoni (JSI/UMD/NASA-GSFC), Kareem El-Badry (CIT), Ilaria Caiazzo (CIT), Michael Coughlin (UMN), Mansi Kasliwal (CIT), and Zach Vanderbosch (CIT) report: We observed the fast optical transient ZTF23aaoohpy/ATLAS23msn/AT2023lcr (Swain et al., GCN 34022; Gompertz et al., GCN34023; Kumar et al., GCN34025; Perley et al, GCN 34031; Fulton et al., AstroNote 2023-179) with the Low Resolution Imaging Spectrometer (LRIS) at W. M. Keck Observatory. Observations started on 2023 June 20 at 07:22 UT. The exposure time was 2x1200s and 3x800s in the blue and red arms of LRIS, respectively. Observations employed the 600/4000 blue grism and 600/7500 red grating, providing continuous wavelength coverage from 3140 to 8784 Angstroms. Data were reduced using LPipe (Perley, 2019). The spectrum shows a simple continuum, well-fit by a simple power-law of f_lamba~lambda^-1. The signal-to-noise ratio is about 20 per resolution element (although lower blueward of 4000 Angstroms). We detect clear (but weak) absorption lines at observer-frame wavelengths of 5688 and 5683 Angstroms which we attribute to the redshifted MgII(2796,2803) doublet at z=1.0272. Weak absorption from FeII 2344 and FeII 2383 at a consistent redshift is also detected. We also detect a possible intervening MgII absorber at z=0.7795. No other lines are apparent in the spectrum. Based on this information, we propose z=1.0272 as the redshift of this event. While strictly this redshift is only a lower limit, the absence of any higher-redshift absorption features suggests that a higher-redshift origin is unlikely. The lack of Lyman-alpha absorption over the spectral range imposes a redshift upper limit of z<1.6. In either case, the spectroscopy confirms this to be an intrinsically very luminous, fast-rising event with a power-law SED characteristic of synchtrotron radiation, similar in nature to GRB afterglows.