Seeing Measurements with the Merak H$\upalpha$ Telescope
Autor: | Vishnu Unni. C, K. Prabhu, B. Ravindra, Sridharan Rengaswamy |
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Rok vydání: | 2021 |
Předmět: |
Point spread function
Physics 010504 meteorology & atmospheric sciences Pixel Mode (statistics) Astronomy and Astrophysics Astrophysics Lambda 01 natural sciences law.invention Telescope Space and Planetary Science law 0103 physical sciences Astronomical seeing Speckle imaging 010303 astronomy & astrophysics Chromosphere 0105 earth and related environmental sciences |
Zdroj: | Solar Physics. 296 |
ISSN: | 1573-093X 0038-0938 |
Popis: | The parameter-search method (PSM) established by Rengaswamy, Ravindra, and Prabhu (Solar Phys. 294, 5, 2019) for measuring the terrestrial atmospheric seeing from long-exposure solar H $\upalpha$ images is further validated – through simulations – to include the effects of i) intermediate exposure-time, exposures that are neither as small as 1 to 20 ms used in solar speckle imaging in the visible nor as long as 1 second; ii) under-sampling of the data (with respect to the telescope’s diffraction-limit), and iii) non-ideal telescope point spread function. It is then applied to a large dataset to obtain the statistics of Fried’s parameter $r_{0}$ at Merak: a cold desert in the Himalayas. The bias due to intermediate exposure is well within the error budget. Under-sampling results in an underestimation of $r_{0}$ only when the seeing-limited point spread function is sampled at a rate worse than two pixels per seeing-limit, implying that $r_{0}$ estimated in the low-resolution mode is unreliable beyond $r_{0} = 10$ cm. The non-ideal telescope point spread function tends to reduce the estimated $r_{0}$ -values significantly only when the RMS wave-front error of the aberrated pupil is worse than $\lambda/14$ . The median seeing at Merak estimated from data spanning over five months is 2.7 arcseconds. |
Databáze: | OpenAIRE |
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