Dr Siddharth Maharana

FiberPol-6D: Spectropolarimetric Integral Field mode for the SAAO 1.9 m Telescope using fibers

ArXiv 2406.19124 (2024)

Authors:

Siddharth Maharana, Sabyasachi Chattopadhyay, Matthew Bershady

Systems design, assembly, integration and lab testing of WALOP-South Polarimeter

ArXiv 2406.19428 (2024)

Authors:

Siddharth Maharana, AN Ramaprakash, Chaitanya Rajarshi, Pravin Khodade, Bhushan Joshi, Pravin Chordia, Abhay Kohok, Ramya M Anche, Deepa Modi, John A Kypriotakis, Amit Deokar, Aditya Kinjawadekar, Stephen B Potter, Dmitry Blinov, Hans Kristian Eriksen, Myrto Falalaki, Hitesh Gajjar, Tuhin Ghosh, Eirik Gjerløw, Sebastain Kiehlmann, Ioannis Liodakis, Nikolaos Mandarakas, Georgia V Panopoulou, Vasiliki Pavlidou, Timothy J Pearson, Vincent Pelgrims, Anthony CS Readhead, Raphael Skalidis, Konstantinos Tassis, Namita Uppal, Ingunn K Wehus

The first degree-scale starlight-polarization-based tomography map of the magnetized interstellar medium

ArXiv 2404.10821 (2024)

Authors:

V Pelgrims, N Mandarakas, R Skalidis, K Tassis, GV Panopoulou, V Pavlidou, D Blinov, S Kiehlmann, SE Clark, BS Hensley, S Romanopoulos, A Basyrov, HK Eriksen, M Falalaki, T Ghosh, E Gjerløw, JA Kypriotakis, S Maharana, A Papadaki, TJ Pearson, SB Potter, AN Ramaprakash, ACS Readhead, IK Wehus

The first degree-scale starlight-polarization-based tomography map of the magnetized interstellar medium

Astronomy and Astrophysics 684 (2024)

Authors:

V Pelgrims, N Mandarakas, R Skalidis, K Tassis, GV Panopoulou, V Pavlidou, D Blinov, S Kiehlmann, SE Clark, BS Hensley, S Romanopoulos, A Basyrov, HK Eriksen, M Falalaki, T Ghosh, E Gjerløw, JA Kypriotakis, S Maharana, A Papadaki, TJ Pearson, SB Potter, AN Ramaprakash, ACS Readhead, IK Wehus

Abstract:

We present the first degree-scale tomography map of the dusty magnetized interstellar medium (ISM) from stellar polarimetry and distance measurements. We used the RoboPol polarimeter at Skinakas Observatory to conduct a survey of the polarization of starlight in a region of the sky of about four square degrees. We propose a Bayesian method to decompose the stellar-polarization source field along the distance to invert the three-dimensional (3D) volume occupied by the observed stars. We used this method to obtain the first 3D map of the dusty magnetized ISM. Specifically, we produced a tomography map of the orientation of the plane-of-sky component of the magnetic field threading the diffuse, dusty regions responsible for the stellar polarization. For the targeted region centered on Galactic coordinates (l, b) (103.3, 22.3), we identified several ISM clouds. Most of the lines of sight intersect more than one cloud. A very nearby component was detected in the foreground of a dominant component from which most of the polarization signal comes and which we identified as being an intersection of the wall of the Local Bubble and the Cepheus Flare. Farther clouds, with a distance of up to 2 kpc, were similarly detected. Some of them likely correspond to intermediate-velocity clouds seen in H I spectra in this region of the sky. We found that the orientation of the plane-of-sky component of the magnetic field changes along distance for most of the lines of sight. Our study demonstrates that starlight polarization data coupled to distance measures have the power to reveal the great complexity of the dusty magnetized ISM in 3D and, in particular, to provide local measurements of the plane-of-sky component of the magnetic field in dusty regions. This demonstrates that the inversion of large data volumes, as expected from the PASIPHAE survey, will provide the necessary means to move forward in the modeling of the Galactic magnetic field and of the dusty magnetized ISM as a contaminant in observations of the cosmic microwave background polarization.

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.