Gemini North Adaptive Optics (GNAO) facility overview and status updates
| Autor: | Sivo, Gaetano, Scharwächter, Julia, Lazo, Manuel, Blain, Célia, Goodsell, Stephen, van Dam, Marcos, Tschimmel, Martin, Roe, Henry, Lotz, Jennifer, Tomassino-Reed, Kim, Rambold, William, Raich, Courtney, Cardenes, Ricardo, Ebbers, Angelic, Gaggstatter, Tim, Gigoux, Pedro, Schneider, Thomas, Cavedoni, Charles, Kang, Stacy, Karewicz, Stanislas, Carr, Heather, Ball, Jesse, Hirst, Paul, Chirre, Emmanuel, White, John, Magill, Lindsay, Grogan, Molly, Jordan, Anne, Sivanandam, Suresh, Lamb, Masen, Muzzin, Adam, Marin, Eduardo, Chapman, Scott, Dunn, Jennifer, Kerley, Dan, Véran, Jean-Pierre, Andersen, Morten, Marchis, Franck, Diaz, Ruben, Blakeslee, John, Pierce, Michael, Carrasco, Rodrigo, Kim, Hwyhyun, Feldmeier-Krause, Anja, McConnachie, Alan, Jee, James, Fraser, Wesley, Ammons, Mark, Packham, Christopher, Bally, John, Dupuy, Trent, Huber, Daniel, Lemoine-Busserole, Marie, Puzia, Thomas, Turri, Paolo, Trujillo, Chadwick, Lee, Janice |
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| Rok vydání: | 2022 |
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| Druh dokumentu: | Working Paper |
| Popis: | The Gemini North Adaptive Optics (GNAO) facility is the upcoming AO facility for Gemini North providing a state-of-the-art AO system for surveys and time domain science in the era of JWST and Rubin operations. GNAO will be optimized to feed the Gemini infrared Multi Object Spectrograph (GIRMOS). While GIRMOS is the primary science driver for defining the capabilities of GNAO, any instrument operating with an f/32 beam can be deployed using GNAO. The GNAO project includes the development of a new laser guide star facility which will consist of four side-launched laser beams supporting the two primary AO modes of GNAO: a wide-field mode providing an improved image quality over natural seeing for a 2-arcminute circular field-of-view and a narrow-field mode providing near diffraction-limited performance over a 20x20 arcsecond square field-of-view. The GNAO wide field mode will enable GIRMOS's multi-IFU configuration in which the science beam to each individual IFU will be additionally corrected using multi-object AO within GIRMOS. The GNAO narrow field mode will feed the GIRMOS tiled IFU configuration in which all IFUs are combined into a "super"-IFU in the center of the field. GNAO also includes the development of a new Real Time Controller, a new GNAO Facility System Controller and finally the development of a new AO Bench. We present in this paper an overview of the GNAO facility and provide a status update of each product. Comment: SPIE conference 2022 Montreal |
| Databáze: | arXiv |
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