Dr. Abhimat K. Gautam Profile

Dr. Abhimat K. Gautam

at Univ. of California, Los Angeles

SPIE Involvement:

Author

Publications (6)

SPIE Journal Paper | 2 March 2023 Open Access

AIROPA IV: Validating point spread function reconstruction on various science cases

Sean Terry, Jessica Lu, Paolo Turri, Anna Ciurlo, Abhimat Gautam, Tuan Do, Michael Fitzgerald, Andrea Ghez, Matthew Hosek, Gunther Witzel

JATIS, Vol. 9, Issue 01, 018003, (March 2023) https://doi.org/10.1117/12.10.1117/1.JATIS.9.1.018003

KEYWORDS: Point spread functions, Stars, Astrometry, Photometry, Adaptive optics, Optical transfer functions, Data modeling, Distortion, Atmospheric modeling, Equipment

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Proceedings Article | 7 September 2022 Poster + Paper

Evaluating the performance of the Keck Observatory adaptive optics systems on crowded field data using different adaptive optics configurations

Devin Chu, Wenmeng Ning, Tuan Do, Andrea Ghez, Peter Wizinowich, Jessica Lu, Abhimat Gautam, Anna Ciurlo, Sean Terry, Jim Lyke, Jacques Delorme

Proceedings Volume 12185, 1218545 (2022) https://doi.org/10.1117/12.2629035

KEYWORDS: Stars, Adaptive optics, Infrared imaging, Spectroscopy, Infrared telescopes, Imaging spectroscopy, Signal to noise ratio, Telescopes, Infrared spectroscopy, Sensors

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Proceedings Article | 30 August 2022 Presentation + Paper

Keck All sky Precision Adaptive optics program overview

P. Wizinowich, J. Lu, S. Cetre, J. Chin, C. Correia, J.-R. Delorme, L. Gers, S. Lilley, J. Lyke, E. Marin, S. Ragland, P. Richards, A. Surendran, E. Wetherell, C.-F. Chen, D. Chu, T. Do, C. Fassnacht, M. Freeman, A. Gautam, A. Ghez, L. Hunter, T. Jones, M. Liu, D. Mawet, C. Max, M. Morris, M. Phillips, J.-B. Ruffio, N.-E. Rundquist, S. Sabhlok, S. Terry, T. Treu, S. Wright

Proceedings Volume 12185, 121850Q (2022) https://doi.org/10.1117/12.2628275

KEYWORDS: Adaptive optics, Telescopes, Tomography, Real-time computing, Sensors, Calibration, Point spread functions, Device simulation, Turbulence, Mirrors

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Proceedings Article | 29 August 2022 Poster

AIROPA: Off-axis adaptive optics PSF reconstruction in simulation, on-bench, and on-sky.

Jessica Lu, Sean Terry, Paolo Turri, Anna Ciurlo, Abhimat Gautam, Tuan Do, Andrea Ghez, Matthew Hosek, Gunther Witzel

Proceedings Volume 12185, 121853Y (2022) https://doi.org/10.1117/12.2630629

KEYWORDS: Point spread functions, Adaptive optics, Stars, Instrument modeling, Device simulation, Calibration, Atmospheric turbulence, Atmospheric modeling, Telescopes, Photometry

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SPIE Journal Paper | 30 May 2022

Analyzing long-term performance of the Keck-II adaptive optics system

Emily Ramey, Jessica Lu, Ruoyi Yin, Steve Robinson, Peter Wizinowich, Sam Ragland, Jim Lyke, Siyao Jia, Shoko Sakai, Abhimat Gautam, Tuan Do, Matthew Hosek, Andrea Ghez, Mark Morris, Eric Becklin, Keith Matthews

JATIS, Vol. 8, Issue 02, 028004, (May 2022) https://doi.org/10.1117/12.10.1117/1.JATIS.8.2.028004

KEYWORDS: Adaptive optics, Image quality, Telescopes, Domes, Mirrors, Turbulence, Data modeling, Detection and tracking algorithms, Stars, Laser guide stars

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We present an analysis of the long-term performance of the W. M. Keck observatory laser guide star adaptive optics (LGS-AO) system and explore factors that influence the overall AO performance most strongly. Astronomical surveys can take years or decades to finish, so it is worthwhile to characterize the AO performance on such timescales in order to better understand future results. The Keck telescopes have two of the longest-running LGS-AO systems in use today, and as such they represent an excellent test-bed for processing large amounts of AO data. We use a Keck-II near infrared camera 2 (NIRC2) LGSAO surve of the Galactic Center (GC) from 2005 to 2019 for our analysis, combining image metrics with AO telemetry files, multiaperture scintillation sense/differential imaging motion monitor turbulence profiles, seeing information, weather data, and temperature readings in a compiled dataset to highlight areas of potential performance improvement. We find that image quality trends downward over time, despite multiple improvements made to Keck-II and its AO system, resulting in a 9 mas increase in the average full width at half maximum (FWHM) and a 3% decrease in the average Strehl ratio over the course of the survey. Image quality also trends upward with ambient temperature, possibly indicating the presence of uncorrected turbulence in the beam path. Using nine basic features from our dataset, we train a simple machine learning (ML) algorithm to predict the delivered image quality of NIRC2 given current atmospheric conditions, which could eventually be used for real-time observation planning and exposure time adjustments. A random forest algorithm trained on this data can predict the Strehl ratio of an image to within 18% and the FWHM to within 7%, which is a solid baseline for future applications involving more advanced ML techniques. The assembled dataset and coding tools are released to the public as a resource for testing new predictive control and point spread function-reconstruction algorithms.

Proceedings Article | 14 December 2020 Poster + Paper

Analyzing long-term performance of the Keck-II adaptive optics system

Proceedings Volume 11448, 1144859 (2020) https://doi.org/10.1117/12.2563252

KEYWORDS: Adaptive optics, Image quality, Keck Observatory, Stars, Analytical research, Turbulence, Data centers, Machine learning

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