Transient Identification and Classification with WISE Doug Hoffman R. Cutri & T. Jarrett The Eventful Universe, 2010.

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Transient Identification and Classification with WISE Doug Hoffman R. Cutri & T. Jarrett The Eventful Universe, 2010

The Wide-field Infrared Survey Explorer Salient Features 4 imaging channels simultaneously covering microns wavelength 40 cm telescope operating at <17K Two stage solid hydrogen cryostat Launched from WTR on December 14, 2009 Sun-synchronous 6am/6pm 500km orbit Scan mirror provides efficient mapping Operational life: 10 months Principal Investigator: Ned Wright (UCLA) Science Sensitive all sky survey with 8X redundancy –Find the most luminous galaxies in the universe –Find the closest stars to the sun –Study darkest asteroids & comets –Provide an important catalog for JWST

WISE Survey Strategy Telescope scans continuously near zenith Scan mirror freezes the sky on the focal planes –8.8-s exposure/11-s duty cycle 10% frame to frame overlap 90% orbit to orbit overlap (every other orbit) Orbital period of 95 min – each sky position observed each 190 minutes (on ecliptic) 1 Orbit2 Consecutive Orbits 2 Orbits 20 Days Apart Minimum 8, median 14 exposures/position after losses to Moon and SAA Sky covered in 6 month of observing 34% of the sky observed so far!

3.4, 4.6, 12, and 22 micron bands selected to sample the emission of cool and obscured objects in the Universe 5sigma sensitivity limits (on ecliptic) 120/160/850/4000 microJy (W1/W2/W3/W4) 8 repeats 295/423/2220/11030 microJy (W1/W2/W3/W4) 1 repeat Bandpasses and Sensitivity

Variable and Transient Identification Challenges associated with different number of observations for different regions in the sky – About 8 observations per object near the ecliptic – Up to about 2000 observations for objects near the ecliptic pole – Time baseline from hours to months Types of variability: – Physical, periodic variables (e.g, RR Lyr, Cepheids, Miras) – Geometric variables (e.g., eclipsing binaries, microlensing, rotating stars) – Explosive (e.g., novae, supernovae) – Accretion (e.g., cataclysmic variables, AGN)

Identification Method Select candidates from RMS threshold vs. magnitude Threshold must be met in at least two bands Use a box-fitting algorithm to identify transients/eclipses (Kovacs, et al, 2002) Fit a linear slope to the data to identify variables Attempt to phase light curve for objects near the poles

Known Eclipsing Binaries

WISE’s First New Variable Candidate W1-W2 = 0.8 W2-W3 = 1.1

Possible Red Outburst in a Sy-1 ULIRG

Object Classification Use WISE + 2MASS colors for rough classification AGN/stars distinguished from color For objects with many observations near the ecliptic poles and are periodic, apply Fourier decomposition for stellar classification

Object Classification Kozlowski et al, 2010

Object Classification Use WISE + 2MASS colors for rough classification AGN/stars distinguished from color For objects with many observations near the ecliptic poles and are periodic, apply Fourier decomposition for stellar classification

Fourier Decomposition