Dr Siddharth Maharana

Zero-polarization candidate regions for the calibration of wide-field optical polarimeters

Astronomy and Astrophysics 684 (2024)

Authors:

N Mandarakas, GV Panopoulou, V Pelgrims, SB Potter, V Pavlidou, A Ramaprakash, K Tassis, D Blinov, S Kiehlmann, E Koutsiona, S Maharana, S Romanopoulos, R Skalidis, A Vervelaki, SE Clark, JA Kypriotakis, ACS Readhead

Abstract:

Context. The calibration of optical polarimeters relies on the use of stars with negligible polarization (i.e., unpolarized standard stars) for determining the instrumental polarization zero point. For wide-field polarimeters, calibration is often done by imaging the same star over multiple positions in the field of view (FoV), which is a time-consuming process. A more effective technique is to target fields containing multiple standard stars. While this method has been used for fields with highly polarized stars, there are no such sky regions with well measured unpolarized standard stars. Aims. We aim to identify sky regions with tens of stars exhibiting negligible polarization that are suitable for a zero-point calibration of wide-field polarimeters. Methods. We selected stars in regions with extremely low reddening, located at high Galactic latitudes. We targeted four ∼40′ × 40′ fields in the northern and eight in the southern equatorial hemispheres. Observations were carried out at the Skinakas Observatory and the South African Astronomical Observatory. Results. We found two fields in the north and seven in the south characterized by a mean polarization lower than p < 0.1%. Conclusions. At least 9 out of the 12 fields can be used for a zero-point calibration of wide-field polarimeters.

Spectropolarimeter on a 2--4 m class telescope and proposed science cases

ArXiv 2402.18854 (2024)

Authors:

Archana Soam, Siddharth Maharana, B-G Andersson, AN Ramaprakash

Zero-polarization candidate regions for calibration of wide-field optical polarimeters

ArXiv 2312.06435 (2023)

Authors:

N Mandarakas, GV Panopoulou, V Pelgrims, SB Potter, V Pavlidou, A Ramaprakash, K Tassis, D Blinov, S Kiehlmann, E Koutsiona, S Maharana, S Romanopoulos, R Skalidis, A Vervelaki, SE Clark, JA Kypriotakis, ACS Readhead

Bright-Moon sky as a wide-field linear Polarimetric flat source for calibration

Astronomy & Astrophysics EDP Sciences 679 (2023) A68-A68

Authors:

S Maharana, S Kiehlmann, D Blinov, V Pelgrims, V Pavlidou, K Tassis, JA Kypriotakis, AN Ramaprakash, RM Anche, A Basyrov, K Deka, HK Eriksen, T Ghosh, E Gjerløw, N Mandarakas, E Ntormousi, GV Panopoulou, A Papadaki, T Pearson, SB Potter, ACS Readhead, R Skalidis, IK Wehus

Abstract:

Context. Next-generation wide-field optical polarimeters such as Wide-Area Linear Optical Polarimeters (WALOPs) have a field of view (FoV) of tens of arcminutes. Wide-field polarimetric flat sources are essential to the efficient and accurate calibration of these instruments. However, no established wide-field polarimetric standard or flat sources exist at present. Aims. This study tests the feasibility of using the polarized sky patches of the size of around 10 × 10 arcminutes2, at a distance of up to 20° from the Moon, on bright-Moon nights as a wide-field linear polarimetric flat source. Methods. We observed 19 patches of the sky adjacent to the bright-Moon with the RoboPol instrument in the SDSS-r broadband filter. These patches were observed on five nights within two days of the full-Moon across two RoboPol observing seasons. Results. We find that for 18 of the 19 patches, the uniformity in the measured normalized Stokes parameters q and u is within 0.2%, with 12 patches exhibiting uniformity within 0.07% or better for both q and u simultaneously, making them reliable and stable wide-field linear polarization flats. Conclusions. We demonstrate that the sky on bright-Moon nights is an excellent wide-field linear polarization flat source. Various combinations of the normalized Stokes parameters q and u can be obtained by choosing suitable locations of the sky patch with respect to the Moon.

The RoboPol sample of optical polarimetric standards

Astronomy & Astrophysics EDP Sciences 677 (2023) A144-A144

Authors:

D Blinov, S Maharana, F Bouzelou, C Casadio, E Gjerløw, J Jormanainen, S Kiehlmann, JA Kypriotakis, I Liodakis, N Mandarakas, L Markopoulioti, GV Panopoulou, V Pelgrims, A Pouliasi, S Romanopoulos, R Skalidis, RM Anche, E Angelakis, J Antoniadis, BJ Medhi, T Hovatta, A Kus, N Kylafis, A Mahabal, I Myserlis, E Paleologou, I Papadakis, V Pavlidou, I Papamastorakis, TJ Pearson, SB Potter, AN Ramaprakash, ACS Readhead, P Reig, A Słowikowska, K Tassis, JA Zensus

Abstract:

Context. Optical polarimeters are typically calibrated using measurements of stars with known and stable polarization parameters. However, there is a lack of such stars available across the sky. Many of the currently available standards are not suitable for medium and large telescopes due to their high brightness. Moreover, as we find, some of the polarimetric standards used are in fact variable or have polarization parameters that differ from their cataloged values. Aims. Our goal is to establish a sample of stable standards suitable for calibrating linear optical polarimeters with an accuracy down to 10−3 in fractional polarization. Methods. For 4 yr, we have been running a monitoring campaign of a sample of standard candidates comprised of 107 stars distributed across the northern sky. We analyzed the variability of the linear polarization of these stars, taking into account the non-Gaussian nature of fractional polarization measurements. For a subsample of nine stars, we also performed multiband polarization measurements. Results. We created a new catalog of 65 stars (see Table 2) that are stable, have small uncertainties of measured polarimetric parameters, and can be used as calibrators of polarimeters at medium and large telescopes.