CAMERA Compact Automated MEMS Rayleigh Adaptive Optics System C. Baranec, S. Kulkarni, R. Dekany, N. Law, E. Ofek, M. Kasliwal, V. Velur, & A. Ramaprakash.

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CAMERA Compact Automated MEMS Rayleigh Adaptive Optics System C. Baranec, S. Kulkarni, R. Dekany, N. Law, E. Ofek, M. Kasliwal, V. Velur, & A. Ramaprakash (IUCAA) Overview References AO Performance a) 5”5” Rapidly develop and deploy low cost adaptive optics (AO) system for 1-3 meter telescopes: Use low-risk technologies Ease of use, fully robotic Emphasis on high observing efficiency New astronomical science capability: Allocate large amounts of time to diffraction-limited astronomy, previously not possible Integrated visible and near IR science instruments New Science Capability Design Lab Testbed CAMERA at the 200”!?! BandCompared to 1.5 mCompared to 4 m J H Extensive surveys ( objects) Stellar, sub-stellar companion searches Lensed quasars ( new over a 9 month period of intermittent observing) Asteroid binarity Rapid transient characterization Respond to transients identified by other systems (e.g. PTF, Catalina Sky Survey, PanSTARRs) Rapid near-IR photometry Time-domain astronomy Long term, high-resolution monitoring Solar system objects, repeating transients, orbits Astrometry Dedicated system to optimize stability High H-Strehl improves precision Supernova 2006GY [1], the second-most luminous supernova ever recorded. Lick AO observations were required to separate the supernova from its host galaxy and ascertain if it was simply AGN variability. The AO observations rapidly confirmed the nature of the transient and gave vital information: position in the host galaxy and a light curve resolved from the bright galaxy nucleus. The ability to quickly and inexpensively perform such observations is growing ever more important as surveys begin to find many potentially interesting transients every night. The gravitational lens HE [2]. In V: HST image. In g': Seeing-limited discovery image, taken in exceptional seeing. High angular resolution observations were required to confirm the lens properties, search for the lens galaxy and photometrically separate the images. Observations taken in standard seeing would have failed to resolve this lens. Swift J , one of the strangest transients of recent years [3-5]. This galactic transient was discovered in the galactic plane by the Swift Gamma-Ray-Burst detector satellite. Follow- up observations revealed an extremely complex (and still poorly understood) light curve, followed by rapid fading. Since stellar crowding was significant, LGS-AO observations were required to separate the transient light from surrounding stars. (Left): The transient during emission. (Right): the transient location after emission ceased. Note the 1” scale bar; clearly, accurate photometry of this very interesting source required high-angular- resolution observations. CAMERA could easily perform similar observations within minutes of initial detection. Compact - WFS and science cameras fit on 0.5 x 0.5 m breadboard 120” field of view 12X12 Boston Micromachines MEMS DM Shack-Hartmann WFS (CCD39) 355nm Rayleigh LGS (similar systems FAA approved), packaged in secondary hub IR and visible tip/tilt sensors IR and science detectors Automated operation [1] N. Smith, et al., “SN 2006gy: Discovery of the Most Luminous Supernova Ever Recorded, Powered by the Death of an Extremely Massive Star like nu Carinae,” Astrophysical Journal, 666, 1116–1128, [2] J. A. Blackburne, L. Wisotzki, and P. L. Schechter, “HE : The Smallest Separation Gravitational Lens Identified by a Ground-based Optical Telescope,” ArXiv e- prints, 710, October [3] A. Stefanescu, et al., “Very fast optical flaring from a possible new Galactic magnetar,” Nature, 455, , [4] A. J. Castro-Tirado, et al., “Flares from a candidate Galactic magnetar suggest a missing link to dim isolated neutron stars,” Nature, 455, , [5] M. M. Kasliwal, et al., “GRB : A Curious Galactic Transient,” Astrophysical Journal, 678, 1127–1135, Testbed closed loop at 120 Hz: Fully remote operation, including simulated queue scheduled observations FWHM at H < 0.26” in even the 75% worst seeing conditions Example error budget for CAMERA under different seeing conditions (r 0 ) and for different zenith angles (z) assuming an on- axis m V =17 star for tip-tilt sensing and on-axis science target. Calculated H-band Strehl ratios for CAMERA under the various observing conditions presented above for different visual magnitudes of on-axis tip-tilt star. Provides a 1.5 m telescope the H sensitivity of a 4 m telescope Ratio of CAMERA enhanced integration time for the same SNR ratio vs. seeing limited telescopes The CAMERA adaptive optics system can be replicated and potentially deployed at the 200” with a focus on improving energy concentration for existing instrumentation such as DoubleSpec and TripleSpec. COO is currently investigating this new type of AO for increasing the SNR and resolution of spectroscopic astronomy. Palomar Science Meeting, Pasadena, CA, Apr. 30 – May 1, 2009.