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1. Spectropolarimetry of SN 2023ixf reveals both circumstellar material and helium core to be aspherical

Author

Shrestha, Manisha, DeSoto, Sabrina, Sand, David J., Williams, G. Grant, Hoffman, Jennifer L., Smith, Nathan, Smith, Paul S., Milne, Peter, McCall, Callum, Maund, Justyn R., Steele, Iain A, Wiersema, Klaas, Andrews, Jennifer E., Bilinski, Christopher, Anche, Ramya M., Bostroem, K. Azalee, Hosseinzadeh, Griffin, Pearson, Jeniveve, Leonard, Douglas C., Hsu, Brian, Dong, Yize, Hoang, Emily, Janzen, Daryl, Jencson, Jacob E., Jha, Saurabh W., Lundquist, M. J., Mehta, Darshana, Retamal, Nicolas Meza, Valenti, Stefano, Farah, Joseph, Howell, D. Andrew, McCully, Curtis, Newsome, Megan, Gonzalez, Estefania Padilla, Pellegrino, Craig, and Terreran, Giacomo

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

We present multi-epoch optical spectropolarimetric and imaging polarimetric observations of the nearby Type II supernova (SN) 2023ixf discovered in M101 at a distance of 6.85 Mpc. The first imaging polarimetric observations were taken +2.33 days (60085.08 MJD) after the explosion, while the last imaging polarimetric data points (+73.19 and +76.19 days) were acquired after the fall from the light curve plateau. At +2.33 days there is strong evidence of circumstellar material (CSM) interaction in the spectra and the light curve. A significant level of polarization $P_r = 0.88\pm 0.06 \% $ seen during this phase indicates that this CSM is aspherical. We find that the polarization evolves with time toward the interstellar polarization level ($0.35\%$) during the photospheric phase, which suggests that the recombination photosphere is spherically symmetric. There is a jump in polarization ($P_r =0.65 \pm 0.08 \% $) at +73.19 days when the light curve falls from the plateau. This is a phase where polarimetric data is sensitive to non-spherical inner ejecta or a decrease in optical depth into the single scattering regime. We also present spectropolarimetric data that reveal line (de)polarization during most of the observed epochs. In addition, at +14.50 days we see an "inverse P Cygn" profile in the H and He line polarization, which clearly indicates the presence of asymmetrically distributed material overlying the photosphere. The overall temporal evolution of polarization is typical for Type II SNe, but the high level of polarization during the rising phase has only been observed in SN 2023ixf., Comment: 14 pages, 7 figures, submitted to ApJL, comments welcome

Published
2024

2. Deepest limits on scattered light emission from the Epsilon Eridani inner debris disk with HST/STIS

Author

M., Sai Krishanth P., Douglas, Ewan S., Anche, Ramya M., Hom, Justin, Cahoy, Kerri L., Debes, John H., Jang-Condell, Hannah, Rebollido, Isabel, Ren, Bin B., Stark, Christopher C., Thompson, Robert, and Xin, Yinzi

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Epsilon Eridani ($\epsilon$ Eri) is one of the first debris disk systems detected by the Infrared Astronomical Satellite (IRAS). However, the system has thus far eluded detection in scattered light with no components having been directly imaged. Its similarity to a relatively young Solar System combined with its proximity makes it an excellent candidate to further our understanding of planetary system evolution. We present a set of coronagraphic images taken using the Space Telescope Imaging Spectrograph (STIS) coronagraph on the Hubble space telescope at a small inner working angle to detect a predicted warm inner debris disk inside 1". We used three different post-processing approaches; Non-negative Matrix Factorization (NMF), Karhunen-Lo`eve Image Processing (KLIP), and Classical reference differential imaging (RDI), to best optimize reference star subtraction, and find that NMF performed the best overall while KLIP produced the absolute best contrast inside 1". We present limits on scattered light from warm dust, with constraints on surface brightness at 6 mJy/as$^2$ at our inner working angle of 0.6". We also place a constraint of 0.5 mJy/as$^2$ outside 1", which gives us an upper limit on the brightness for outer disks and substellar companions. Finally, we calculated an upper limit on the dust albedo at $\omega <$ 0.487., Comment: 13+2 pages, 7+2 figures; Accepted for publication in the Astronomical Journal

Published
2024
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3. Systems design, assembly, integration and lab testing of WALOP-South Polarimeter

Author

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

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Wide-Area Linear Optical Polarimeter (WALOP)-South is the first wide-field and survey-capacity polarimeter in the optical wavelengths. On schedule for commissioning in 2024, it will be mounted on the 1 m SAAO telescope in Sutherland Observatory, South Africa to undertake the PASIPHAE sky survey. PASIPHAE program will create the first polarimetric sky map in the optical wavelengths, spanning more than 2000 square degrees of the southern Galactic region. The innovative design of WALOP-South will enable it to measure the linear polarization (Stokes parameters $q$ and $u$), in a single exposure, of all sources in a field of view (FoV) of $35\times35$ arcminutes-squared in the SDSS-r broadband and narrowband filters between 500-750 nm with 0.1 % polarization accuracy. The unique goals of the instrument place very stringent systems engineering goals, including on the performance of the optical, polarimetric, optomechanical, and electronic subsystems. All the subsystems have been designed carefully to meet the overall instrument performance goals. As of May 2024, all the instrument optical and mechanical subsystems have been assembled and are currently getting tested and integrated. The complete testing and characterization of the instrument in the lab is expected to be completed by August 2024. In this paper, we will present (a) the design and development of the entire instrument and its major subsystems, focusing on the opto-mechanical design which has not been reported before, and (b) assembly and integration of the instrument in the lab and early results from lab characterization of the instrument., Comment: 20 pages; presented at 2024 SPIE Astronomical Telescopes + Instrumentation conference

Published
2024
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4. Black Silicon BRDF and Polarization for Coronagraphic Pupil Masks

Author

Jenkins, Emory L., Anche, Ramya M., Van Gorkom, Kyle J., Riggs, A. J. Eldorado, and Douglas, Ewan S.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Future space observatories will likely have segmented primaries, causing diffraction effects that reduce coronagraph performance. Reflective binary pupil apodizer masks can mitigate these, with the metamaterial black silicon (BSi) showing promise as a strong absorber. To bring contrast ratios to the $10^-{10}$ level as needed to observe Earth-like exoplanets, feature sizes on these BSi masks will need to be less than $5$ microns when paired with MEMS (micro-electromechanical systems) deformable mirrors. As scalar diffraction cannot reliably model this feature size, we developed a Finite-Difference Time-Domain (FDTD) model of BSi masks using Meep software. We characterize the FDTD-derived polarization-dependent bidirectional reflectance distribution function of BSi and discuss the model's shortcomings., Comment: 8 pages, 10 figures, submitted to SPIE Astronomical Telescopes and Instrumentation (AS24)

Published
2024

5. The Space Coronagraph Optical Bench (SCoOB): 5. End-to-end simulations of polarization aberrations

Author

Anche, Ramya M, Van Gorkom, Kyle J., Ashcraft, Jaren N., Douglas, Ewan, Jenkins, Emory L, Haffert, Sebastiaan Y., and Millar-Blanchaer, Maxwell A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

Polarization aberrations originating from the telescope and high-contrast imaging instrument optics introduce polarization-dependent speckles and associated errors in the image plane, affecting the measured exoplanet signal. Understanding this effect is critical for future space-based high-contrast imaging instruments that aim to image the Earth analogs with 1e-10 raw contrast and characterize their atmospheres. We present end-to-end modeling of the polarization aberrations for a high-contrast imaging testbed, SCoOB. We use a vector vortex coronagraph (VVC) as the focal plane mask, incorporate polarization filtering, and estimate the peak contrast in the dark hole region. The dominant polarization aberrations in the system are retardance defocus and tilt due to the OAPs and fold mirrors. Although the mean contrast in the dark hole region remains unaffected by the polarization aberrations, we see brighter speckles limiting the contrast to 1e-9 at smaller inner working angles. We extend the simulations using the measured retardance maps for the VVC. We find that the mean contrast in SCoOB is more sensitive to the VVC and the QWP retardance errors than the polarization aberrations., Comment: 11 pages, 10 figures, SPIE Astronomical Telescopes and Instruments conference 2024, Paper no: 13092-189

Published
2024

6. The space coronagraph optical bench (SCoOB): 4. vacuum performance of a high contrast imaging testbed

Author

Van Gorkom, Kyle, Douglas, Ewan S, Milani, Kian, Ashcraft, Jaren N, Anche, Ramya M, Jenkins, Emory, Ingraham, Patrick, Haffert, Sebastiaan, Kim, Daewook, Choi, Heejoo, and Durney, Olivier

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The Space Coronagraph Optical Bench (SCoOB) is a high-contrast imaging testbed built to demonstrate starlight suppression techniques at visible wavelengths in a space-like vacuum environment. The testbed is designed to achieve ${<}10^{-8}$ contrast from $3-10\lambda/D$ in a one-sided dark hole using a liquid crystal vector vortex waveplate and a 952-actuator Kilo-C deformable mirror (DM) from Boston Micromachines (BMC). We have recently expanded the testbed to include a field stop for mitigation of stray/scattered light, a precision-fabricated pinhole in the source simulator, a Minus K passive vibration isolation table for jitter reduction, and a low-noise vacuum-compatible CMOS sensor. We report the latest contrast performance achieved using implicit electric field conjugation (iEFC) at a vacuum of ${\sim}10^{-6}$ Torr and over a range of bandpasses with central wavelengths from 500 to 650nm and bandwidths (BW) from $\ll 1\%$ to 15\%. Our jitter in vacuum is $<3\times10^{-3} \lambda/D$, and the best contrast performance to-date in a half-sided D-shaped dark hole is $2.2\times10^{-9}$ in a $\ll 1 \%$ BW, $4\times10^{-9}$ in a 2\% BW, and $2.5\times10^{-8}$ in a 15\% BW., Comment: 16 pages, 12 figures, SPIE Astronomical Telescopes and Instrumentation 2024

Published
2024

7. The space coronagraph optical bench (SCoOB): 3. Mueller matrix polarimetry of a coronagraphic exit pupil

Author

Ashcraft, Jaren N., Douglas, Ewan S., Anche, Ramya M., Van Gorkom, Kyle, Jenkins, Emory, Melby, William, and Millar-Blanchaer, Maxwell A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

High-contrast imaging in the next decade aims to image exoplanets at smaller angular separations and deeper contrasts than ever before. A problem that has recently garnered attention for telescopes equipped with high-contrast coronagraphs is polarization aberration arising from the optics. These aberrations manifest as low-order aberrations of different magnitudes for orthogonal polarization states and spread light into the dark hole of the coronagraph that cannot be fully corrected. The origin of polarization aberrations has been modeled at the telescope level. However, we don't fully understand how polarization aberrations arise at the instrument level. To directly measure this effect, we construct a dual-rotating-retarder polarimeter around the SCoOB high-contrast imaging testbed to measure its Mueller matrix. With this matrix, we directly characterize the diattenuation, retardance, and depolarization of the instrument as a function of position in the exit pupil. We measure the polarization aberrations in the Lyot plane to understand how polarization couples into high-contrast imaging residuals., Comment: 16 pages, 13 figures

Published
2024

8. Simulation of high-contrast polarimetric observations of debris disks with the Roman Coronagraph Instrument

Author

Anche, Ramya M, Douglas, Ewan, Milani, Kian, Ashcraft, Jaren, Millar-Blanchaer, Maxwell A., Debes, John H, Milli, Julien, and Hom, Justin

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The Nancy Grace Roman Space Telescope Coronagraph Instrument will enable the polarimetric imaging of debris disks and inner dust belts in the optical and near-infrared wavelengths, in addition to the high-contrast polarimetric imaging and spectroscopy of exoplanets. The Coronagraph uses two Wollaston prisms to produce four orthogonally polarized images and is expected to measure the polarization fraction with measurement errors < 3% per spatial resolution element. To simulate the polarization observations through the Hybrid Lyot Coronagraph (HLC) and Shaped Pupil Coronagraph (SPC), we model disk scattering, the coronagraphic point-response function, detector noise, speckles, jitter, and instrumental polarization and calculate the Stokes parameters. To illustrate the potential for discovery and a better understanding of known systems with both the HLC and SPC modes, we model the debris disks around Epsilon Eridani and HR 4796A, respectively. For Epsilon Eridani, using astrosilicates with 0.37+/-0.01 as the peak input polarization fraction in one resolution element, we recover the peak disk polarization fraction of 0.33+/-0.01. Similarly, for HR 4796A, for a peak input polarization fraction of 0.92+/-0.01, we obtain the peak output polarization fraction as 0.80+/-0.03. The Coronagraph design meets the required precision, and forward modeling is needed to accurately estimate the polarization fraction., Comment: 21 pages, 13 figures, Accepted in Publications of the Astronomical Society of the Pacific

Published
2023

9. RZ Piscium Hosts a Compact and Highly Perturbed Debris Disk

Author

Su, Kate Y. L., Kennedy, Grant M., Rieke, George H., Hughes, A. Meredith, Lin, Yu-Chia, Kittling, Jamar, Jackson, Alan P., Anche, Ramya M., and Liu, Hauyu Baobab

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

RZ Piscium (RZ Psc) is well-known in the variable star field because of its numerous, irregular optical dips in the past five decades, but the nature of the system is heavily debated in the literature. We present multiyear infrared monitoring data from Spitzer and WISE to track the activities of the inner debris production, revealing stochastic infrared variability as short as weekly timescales that is consistent with destroying a 90-km-size asteroid every year. ALMA 1.3 mm data combined with spectral energy distribution modeling show that the disk is compact ($\sim$0.1--13 au radially) and lacks cold gas. The disk is found to be highly inclined and has a significant vertical scale height. These observations confirm that RZ Psc hosts a close to edge-on, highly perturbed debris disk possibly due to migration of recently formed giant planets which might be triggered by the low-mass companion RZ Psc B if the planets formed well beyond the snowlines., Comment: 16 pages, 5 figures, accepted for publication in ApJ

Published
2023

10. NMF-based GPU accelerated coronagraphy pipeline

Author

M., Sai Krishanth P., Douglas, Ewan S., Hom, Justin, Anche, Ramya M., Debes, John, Rebollido, Isabel, and Ren, Bin B.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

We present a generalized Non-negative factorization (NMF)-based data reduction pipeline for circumstellar disk and exoplanet detection. By using an adaptable pre-processing routine that applies algorithmic masks and corrections to improper data, we are able to easily offload the computationally-intensive NMF algorithm to a graphics processing unit (GPU), significantly increasing computational efficiency. NMF has been shown to better preserve disk structural features compared to other post-processing approaches and has demonstrated improvements in the analysis of archival data. The adaptive pre-processing routine of this pipeline, which automatically aligns and applies image corrections to the raw data, is shown to significantly improve chromatic halo suppression. Utilizing HST-STIS and JWST-MIRI coronagraphic datasets, we demonstrate a factor of five increase in real-time computational efficiency by using GPUs to perform NMF compared to using CPUs. Additionally, we demonstrate the usefulness of higher numbers of NMF components with SNR and contrast improvements, which necessitates the use of a more computationally efficient approach for data reduction.

Published
2023
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11. Estimation of polarization aberrations and their effect on the coronagraphic performance for future space telescopes

Author

Anche, Ramya M, Haffert, Sebastiaan Y., Ashcraft, Jaren N, Milani, Kian, Van Gorkom, Kyle, Derby, Kevin, Douglas, Ewan S., and Millar-Blanchaer, Maxwell A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

A major goal of proposed future space observatories, such as the Habitable World Observatory, is to directly image and characterize Earth-like planets around Sun-like stars to search for habitability signatures requiring the starlight suppression (contrast) of 1e-10. One of the significant aspects affecting this contrast is the polarization aberrations generated from the reflection from mirror surfaces. The polarization aberrations are the phase-dependent amplitude and phase patterns originating from the Fresnel reflections of the mirror surfaces. These aberrations depend on the angle of incidence and coating parameters of the surface. This paper simulates the polarization aberrations for an on-axis and off-axis TMA telescope of a 6.5 m monolithic primary mirror. We analyze the polarization aberrations and their effect on the coronagraphic performance for eight different recipes of mirror coatings for Astronomical filter bands g-I: three single-layer metal coatings and five recipes of protective coatings. First, the Jones pupils are estimated for each coating and filter band using the polarization ray tracing in Zemax. Then, we propagate these Jones pupils through a Vector Vortex Coronagraph and Perfect Coronagraphs using hcipy, a physical optics-based simulation framework. The analysis shows that the two main polarization aberrations generated from the four mirrors are the retardance-defocus and retardance-tilt. The simulations also show that the coating plays a significant role in determining the strength of the aberrations. The bare/oxi-aluminum and Al+18nm LiF coating outperforms all the other coatings by one order of magnitude., Comment: 13 pages, 11 figures, SPIE Optics+Photonics 2023 proceeding, Paper no: 12680-28

Published
2023

12. Polarimetric modeling and assessment of science cases for Giant Magellan Telescope-Polarimeter (GMT-Pol)

Author

Anche, Ramya M, Williams, Grant, Tailor, Hill, Packham, Chris, Kim, Daewook, Ashcraft, Jaren N, Douglas, Ewan S., and team, GMT-Pol

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Polarization observations through the next-generation large telescopes will be invaluable for exploring the magnetic fields and composition of jets in AGN, multi-messenger transients follow-up, and understanding interstellar dust and magnetic fields. The 25m Giant Magellan Telescope (GMT) is one of the next-generation large telescopes and is expected to have its first light in 2029. The telescope consists of a primary mirror and an adaptive secondary mirror comprising seven circular segments. The telescope supports instruments at both Nasmyth as well as Gregorian focus. However, none of the first or second-generation instruments on GMT has the polarimetric capability. This paper presents a detailed polarimetric modeling of the GMT for both Gregorian and folded ports for astronomical B-K filter bands and a field of view of 5 arc minutes. At 500nm, The instrumental polarization is 0.1% and 3% for the Gregorian and folded port, respectively. The linear to circular crosstalk is 0.1% and 30% for the Gregorian and folded ports, respectively. The Gregorian focus gives the GMT a significant competitive advantage over TMT and ELT for sensitive polarimetry, as these telescopes support instruments only on the Nasmyth platform. We also discuss a list of polarimetric science cases and assess science case requirements vs. the modeling results. Finally, we discuss the possible routes for polarimetry with GMT and show the preliminary optical design of the GMT polarimeter., Comment: 13 pages, 5 figures,SPIE Optics + Photonics 2023 conference proceeding, Paper no 12690-20

Published
2023

13. Polarization aberrations in next-generation giant segmented mirror telescopes (GSMTs) I. Effect on the coronagraphic performance

Author

Anche, Ramya M., Ashcraft, Jaren N., Haffert, Sebastiaan Y., Millar-Blanchaer, Maxwell A., Douglas, Ewan S., Snik, Frans, Williams, Grant, van Holstein, Rob G., Doelman, David, Van Gorkom, Kyle, and Skidmore, Warren

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Next-generation large segmented mirror telescopes are expected to perform direct imaging and characterization of Earth-like rocky planets, which requires contrast limits of $10^{-7}$ to $10^{-8}$ at wavelengths from I to J band. One critical aspect affecting the raw on-sky contrast are polarization aberrations arising from the reflection from the telescope's mirror surfaces and instrument optics. We simulate the polarization aberrations and estimate their effect on the achievable contrast for three next-generation ground-based large segmented mirror telescopes. We performed ray-tracing in Zemax and computed the polarization aberrations and Jones pupil maps using the polarization ray-tracing algorithm. The impact of these aberrations on the contrast is estimated by propagating the Jones pupil maps through a set of idealized coronagraphs using hcipy, a physical optics-based simulation framework. The optical modeling of the giant segmented mirror telescopes (GSMTs) shows that polarization aberrations create significant leakage through a coronagraphic system. The dominant aberration is retardance defocus, which originates from the steep angles on the primary and secondary mirrors. The retardance defocus limits the contrast to $10^{-5}$ to $10^{-4}$ at 1 $\lambda/D$ at visible wavelengths, and $10^{-5}$ to $10^{-6}$ at infrared wavelengths. The simulations also show that the coating plays a major role in determining the strength of the aberrations. Polarization aberrations will need to be considered during the design of high-contrast imaging instruments for the next generation of extremely large telescopes. This can be achieved either through compensation optics, robust coronagraphs, specialized coatings, calibration, and data analysis approaches or by incorporating polarimetry with high-contrast imaging to measure these effects., Comment: 18 pages, 12 figures, Accepted in Astronomy & Astrophysics manuscript no. aa45651-22

Published
2023
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14. WALOP-South: A Four-Camera One-Shot Imaging Polarimeter for PASIPHAE Survey. Paper II -- Polarimetric Modelling and Calibration

Author

Maharana, Siddharth, Anche, Ramya M., Ramaprakash, A. N., Joshi, Bhushan, Basyrov, Artem, Blinov, Dmitry, Casadio, Carolina, Deka, Kishan, Eriksen, Hans Kristian, Ghosh, Tuhin, Gjerløw, Eirik, Kypriotakis, John A., Kiehlmann, Sebastian, Mandarakas, Nikolaos, Panopoulou, Georgia V., Papadaki, Katerina, Pavlidou, Vasiliki, Pearson, Timothy J., Pelgrims, Vincent, Potter, Stephen B., Readhead, Anthony C. S., Skalidis, Raphael, Svalheim, Trygve Leithe, Tassis, Konstantinos, and Wehus, Ingunn K.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The Wide-Area Linear Optical Polarimeter (WALOP)-South instrument is an upcoming wide-field and high-accuracy optical polarimeter to be used as a survey instrument for carrying out the Polar-Areas Stellar Imaging in Polarization High Accuracy Experiment (PASIPHAE) program. Designed to operate as a one-shot four-channel and four-camera imaging polarimeter, it will have a field of view of $35\times 35$ arcminutes and will measure the Stokes parameters $I$, $q$, and $u$ in a single exposure in the SDSS-r broadband filter. The design goal for the instrument is to achieve an overall polarimetric measurement accuracy of 0.1 % over the entire field of view. We present here the complete polarimetric modeling of the instrument, characterizing the amount and sources of instrumental polarization. To accurately retrieve the real Stokes parameters of a source from the measured values, we have developed a calibration method for the instrument. Using this calibration method and simulated data, we demonstrate how to correct instrumental polarization and obtain 0.1 % accuracy in the degree of polarization, $p$. Additionally, we tested and validated the calibration method by implementing it on a table-top WALOP-like test-bed polarimeter in the laboratory., Comment: 34 pages, 24 figures. Accepted for publication in the Journal of Astronomical Telescopes, Instruments, and Systems

Published
2022
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15. The space coronagraph optical bench (SCoOB): 2. wavefront sensing and control in a vacuum-compatible coronagraph testbed for spaceborne high-contrast imaging technology

Author

Van Gorkom, Kyle, Douglas, Ewan S., Ashcraft, Jaren N., Haffert, Sebastiaan, Kim, Daewook, Choi, Heejoo, Anche, Ramya M., Males, Jared R., Milani, Kian, Derby, Kevin, Harrison, Lori, and Durney, Olivier

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The 2020 Decadal Survey on Astronomy and Astrophysics endorsed space-based high contrast imaging for the detection and characterization of habitable exoplanets as a key priority for the upcoming decade. To advance the maturity of starlight suppression techniques in a space-like environment, we are developing the Space Coronagraph Optical Bench (SCoOB) at the University of Arizona, a new thermal vacuum (TVAC) testbed based on the Coronagraphic Debris Exoplanet Exploring Payload (CDEEP), a SmallSat mission concept for high contrast imaging of circumstellar disks in scattered light. When completed, the testbed will combine a vector vortex coronagraph (VVC) with a Kilo-C microelectromechanical systems (MEMS) deformable mirror from Boston Micromachines Corp (BMC) and a self-coherent camera (SCC) with a goal of raw contrast surpassing $10^{-8}$ at visible wavelengths. In this proceedings, we report on our wavefront sensing and control efforts on this testbed in air, including the as-built performance of the optical system and the implementation of algorithms for focal-plane wavefront control and digging dark holes (regions of high contrast in the focal plane) using electric field conjugation (EFC) and related algorithms., Comment: 7 pages, 5 figures, SPIE Astronomical Telescopes and Instrumentation 2022

Published
2022

16. WALOP-South: A wide-field one-shot linear optical polarimeter for PASIPHAE survey

Author

Maharana, Siddharth, Kypriotakis, John A., Ramaprakash, A. N., Khodade, Pravin, Rajarshi, Chaitanya, Joshi, Bhushan S., Chordia, Pravin, Anche, Ramya M., Mishra, Shrish, Blinov, Dmitry, Eriksen, Hans Kristian, Ghosh, Tuhin, Gjerløw, Eirik, Mandarakas, Nikolaos, Panopoulou, Georgia V., Pavlidou, Vasiliki, Pearson, Timothy J., Pelgrims, Vincent, Potter, Stephen B., Readhead, Anthony C. S., Skalidis, Raphail, Tassis, Konstantinos, and Wehus, Ingunn K.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

WALOP (Wide-Area Linear Optical Polarimeter)-South, to be mounted on the 1m SAAO telescope in South Africa, is first of the two WALOP instruments currently under development for carrying out the PASIPHAE survey. Scheduled for commissioning in the year 2021, the WALOP instruments will be used to measure the linear polarization of around $10^{6}$ stars in the SDSS-r broadband with $0.1~\%$ polarimetric accuracy, covering 4000 square degrees in the Galactic polar regions. The combined capabilities of one-shot linear polarimetry, high polarimetric accuracy ($< 0.1~\%$) and polarimetric sensitivity ($< 0.05~\%$), and a large field of view (FOV) of $35\times35~arcminutes$ make WALOP-South a unique astronomical instrument. In a single exposure, it is designed to measure the Stokes parameters $I$, $q$ and $u$ in the SDSS-r broadband and narrowband filters between $500-700~nm$. During each measurement, four images of the full field corresponding to the polarization angles of $0^{\circ}$, $45^{\circ}$, $90^{\circ}$ and $135^{\circ}$ will be imaged on four detectors and carrying out differential photometry on these images will yield the Stokes parameters. Major challenges in designing WALOP-South instrument include- (a) in the optical design, correcting for the spectral dispersion introduced by large split angle Wollaston Prisms used as polarization analyzers as well as aberrations from the wide field, and (b) making an optomechanical design adherent to the tolerances required to obtain good imaging and polarimetric performance under all temperature conditions as well as telescope pointing positions. We present the optical and optomechanical design for WALOP-South which overcomes these challenges., Comment: Presented at SPIE Astronomical Telescopes + Instrumentation 2020. 12 Pages, 6 Figures, 6 Tables

Published
2021
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17. WALOP-South: A Four Camera One Shot Imaging Polarimeter for PASIPHAE Survey. Paper I -- Optical Design

Author

Maharana, Siddharth, Kypriotakis, John A., Ramaprakash, A. N., Rajarshi, Chaitanya, Anche, Ramya M., Shrish, Blinov, Dmitry, Eriksen, Hans Kristian, Ghosh, Tuhin, Gjerløw, Eirik, Mandarakas, Nikolaos, Panopoulou, Georgia V., Pavlidou, Vasiliki, Pearson, Timothy J., Pelgrims, Vincent, Potter, Stephen B., Readhead, Anthony C. S., Skalidis, Raphael, Tassis, Konstantinos, and Wehus, Ingunn K.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The WALOP-South instrument will be mounted on the 1 m SAAO telescope in South Africa as part of the PASIPHAE program to carry out a linear imaging polarization survey of the Galactic polar regions in the optical band. Designed to achieve polarimetric sensitivity of $0.05~\%$ across a $35\times35$ arcminute field of view, it will be capable of measuring the Stokes parameters I, q and u in a single exposure in the SDSS-r broadband and narrowband filters between $0.5~{\mu}m - 0.7~{\mu}m$. For each measurement, four images of the full field corresponding to linear polarization angles of 0 deg, 45 deg, 90 deg and 135 deg in the instrument coordinate system will be created on four detectors from which the Stokes parameters can be found using differential photometry. In designing the optical system, major challenges included correcting for the dispersion introduced by large split angle Wollaston Prisms used as analysers as well as other aberrations from the entire field to obtain imaging quality PSF at the detector. We present the optical design of the WALOP-South instrument which overcomes these challenges and delivers near seeing limited PSFs for the entire field of view., Comment: 31 pages, 18 Figures and 8 Tables. Accepted in the Journal of Astronomical Telescopes, Instruments, and Systems

Published
2021
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18. SN 2018hna: 1987A-like supernova with a signature of shock breakout

Author

Singh, Avinash, Sahu, D. K., Anupama, G. C., Kumar, Brajesh, Kumar, Harsh, Yamanaka, Masayuki, Baklanov, Petr V., Tominaga, Nozomu, Blinnikov, Sergei I., Maeda, Keiichi, Dutta, Anirban, Bhalerao, Varun, Anche, Ramya M., Barway, Sudhanshu, Akitaya, Hiroshi, Nakaoka, Tatsuya, Kawabata, Miho, Kawabata, Koji S, Sasada, Mahito, Takagi, Kengo, Maehara, Hiroyuki, Isogai, Keisuke, Kino, Masaru, Taguchi, Kenta, and Nagao, Takashi

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics
Abstract

High cadence ultraviolet, optical and near-infrared photometric and low-resolution spectroscopic observations of the peculiar Type II supernova (SN) 2018hna are presented. The early phase multiband light curves exhibit the adiabatic cooling envelope emission following the shock breakout up to ~14 days from the explosion. SN~2018hna has a rise time of $\sim$\,88 days in the V-band, similar to SN 1987A. A $\rm^{56}Ni$ mass of ~0.087$\pm$0.004 $\rm M_{\odot}$ is inferred for SN 2018hna from its bolometric light curve. Hydrodynamical modelling of the cooling phase suggests a progenitor with a radius ~50 $\rm R_{\odot}$, a mass of ~14-20 $\rm M_{\odot}$ and explosion energy of ~1.7-2.9$\rm \times$ $\rm 10^{51}\ erg$. The smaller inferred radius of the progenitor than a standard red supergiant is indicative of a blue supergiant progenitor of SN 2018hna. A sub-solar metallicity (~0.3 $\rm Z_{\odot}$) is inferred for the host galaxy UGC 07534, concurrent with the low-metallicity environments of 1987A-like events., Comment: 8 pages, 5 figures, Accepted for Publication in ApJ Letters

Published
2019
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19. Optical spectroscopic and polarization properties of 2011 outburst of the recurrent nova T Pyxidis

Author

Pavana, M., Anche, Ramya M, Anupama, G. C., Ramaprakash, A. N., and Selvakumar, G.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

We study the spectroscopic and ionized structural evolution of T Pyx during its 2011 outburst, and also study the variation in degree of polarization during its early phase. Optical spectroscopic data of this system obtained from day 1.28--2415.62 since discovery, and optical, broadband imaging polarimetric observations obtained from day 1.36--29.33 during the early phases of the outburst are used in the study. The physical conditions and the geometry of the ionized structure of the nova ejecta has been modelled for a few epochs using the photo-ionization code, CLOUDY in 1D and pyCloudy in 3D. The spectral evolution of the nova ejecta during its 2011 outburst is similar to that of the previous outbursts. The variation in the line profiles is seen very clearly in the early stages due to good coverage during this period. The line profiles vary from P-Cygni (narrower, deeper and sharper) to emission profiles which are broader and structured, which later become narrower and sharper in the late post-outburst phase. The average ejected mass is estimated to be $7.03\, \times\, 10^{-6}\, M_{\odot}$. The ionized structure of the ejecta is found to be a bipolar conical structure with equatorial rings, with a low inclination angle of $14.75^\circ\, \pm\, 0.65^\circ$., Comment: 14 pages, 12 figures, accepted in A&A

Published
2019
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24. Systems design, assembly, integration, and lab testing of WALOP-South Polarimeter

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Maharana, Siddharth, Ramaprakash, A. N., Rajarshi, Chaitanya, Khodade, Pravin, Joshi, Bhushan, Chordia, Pravin, Kohok, Abhay, Anche, Ramya M., Modi, Deepa, Kypriotakis, John A., Deokar, Amit, Kinjawadekar, Aditya, Potter, Stephen B., Blinov, Dmitry, Eriksen, Hans Kristian, Falalaki, Myrto, Gajjar, Hitesh, Ghosh, Tuhin, Gjerløw, Eirik, Kiehlmann, Sebastian, Liodakis, Ioannis, Mandarakas, Nikolaos, Panopoulou, Georgia V., Pavlidou, Vasiliki, Pearson, Timothy J., Pelgrims, Vincent, Readhead, Anthony C. S., Skalidis, Raphael, Tassis, Konstantinos, Uppal, Namita, and Wehus, Ingunn K.

Published
2024
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25. SHARK-NIR commissioning and early science runs

Author

Bryant, Julia J., Motohara, Kentaro, Vernet, Joël R. D., Barbato, Domenico, Farinato, Jacopo, Baruffolo, Andrea, Bergomi, Maria, Bianco, Andrea, Biondi, Federico, Briegel, Florian, Carolo, Elena, Cerpelloni, Paolo, Carlotti, Alexis, Chinellato, Simonetta, Conrad, Albert, De Pascale, Marco, Di Filippo, Simone, Dima, Marco, D'Orazi, Valentina, Ertel, Steve, Gomes Machado, Tania Sofia, Greggio, Davide, Guerra, Juan Carlos, Henning, Thomas, Hom, Justin, Hill, John M., Laudisio, Fulvio, Lessio, Luigi, Lorenzetto, Alessandro, Magrin, Demetrio, Marafatto, Luca, Mesa, Dino, Miller, Doug, Mohr, Lars, Montoya, Manny, Power, Jennifer, Radhakrishnan, Kalyan, Ricci, Davide, Umbriaco, Gabriele, Vassallo, Daniele, Viotto, Valentina, Taylor, Greg, Zanutta, Alessio, Anche, Ramya M., Antoniucci, Simone, Arcidiacono, Carmelo, Bacciotti, Francesca, Baudoz, Pierre, Bongiorno, Angela, Close, Laird, Esposito, Simone, Grenz, Paul, Guyon, Olivier, Leisenring, Jarron M., Pedichini, Fernando, Piazzesi, Roberto, Pinna, Enrico, Portaluri, Elisa, Puglisi, Alfio, Ragazzoni, Roberto, Rodeghiero, Gabriele, Rossi, Fabio, Shields, Joseph V., and Vega Pallauta, Macarena

Published
2024
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29. WALOP-South: a four-camera one-shot imaging polarimeter for PASIPHAE survey. Paper II – polarimetric modeling and calibration

Author

Maharana, Siddharth, primary, Anche, Ramya M., additional, Ramaprakash, Anamparambu N., additional, Joshi, Bhushan, additional, Basyrov, Artem, additional, Blinov, Dmitry, additional, Casadio, Carolina, additional, Deka, Kishan, additional, Eriksen, Hans Kristian, additional, Ghosh, Tuhin, additional, Gjerløw, Eirik, additional, Kypriotakis, John A., additional, Kiehlmann, Sebastian, additional, Mandarakas, Nikolaos, additional, Panopoulou, Georgia V., additional, Papadaki, Katerina, additional, Pavlidou, Vasiliki, additional, Pearson, Timothy J., additional, Pelgrims, Vincent, additional, Potter, Stephen B., additional, Readhead, Anthony C. S., additional, Skalidis, Raphael, additional, Svalheim, Trygve Leithe, additional, Tassis, Konstantinos, additional, and Wehus, Ingunn K., additional

Published
2022
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33. Stress-induced birefringence in the lenses of Wide-Area Linear Optical Polarimeter-South

Author

Anche, Ramya M., primary, Maharana, Siddharth, additional, Ramaprakash, Anamparambu N., additional, Khodade, Pravin, additional, Modi, Deepa, additional, Rajarshi, Chaitanya, additional, Kypriotakis, John A., additional, Blinov, Dmitry, additional, Eriksen, Hans K., additional, Ghosh, Tuhin, additional, Panopoulou, Georgia V., additional, Pelgrims, Vincent, additional, Skalidis, Raphael, additional, Pearson, Timothy J., additional, Gjerløw, Eirik, additional, Mandarakas, Nikolaos, additional, Pavlidou, Vasiliki, additional, Potter, Stephen ., additional, Readhead, Anthony C. S., additional, Tassis, Konstantinos, additional, Basyrov, Artem, additional, Papadaki, Katerina, additional, Svalheim, Trygve Leithe, additional, and Wehus, Ingunn ., additional

Published
2022
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34. The space coronagraph optical bench (SCoOB): 2. Wavefront sensing and control in a vacuum-compatible coronagraph testbed for spaceborne high-contrast imaging technology

Author

Van Gorkom, Kyle, primary, Douglas, Ewan S., additional, Ashcraft, Jaren N., additional, Haffert, Sebastiaan, additional, Kim, Daewook, additional, Choi, Heejoo, additional, Anche, Ramya M., additional, Males, Jared R., additional, Milani, Kian, additional, Derby, Kevin, additional, Harrison, Lori, additional, and Durney, Olivier, additional

Published
2022
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36. WALOP-South: A wide-field one-shot linear optical polarimeter for PASIPHAE survey

Author

Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Maharana, Siddharth, Kypriotakis, John A., Ramaprakash, A. N., Khodade, Pravin, Rajarshi, Chaitanya, Joshi, Bhushan, Chordia, Pravin, Anche, Ramya M., Mishra, Shrish, Blinov, Dmitry, Eriksen, Hans Kristian, Ghosh, Tuhin, Gjerløw, Eirik, Mandarakas, Nikolaos, Panopoulou, Georgia V., Pavlidou, Vasiliki, Pearson, Timothy J., Pelgrims, Vincent, Potter, Stephen B., Readhead, Anthony C. S., Skalidis, Raphail, Tassis, Konstantinos, Wehus, Ingunn K., Evans, Christopher J., Bryant, Julia J., Motohara, Kentaro, Maharana, Siddharth, Kypriotakis, John A., Ramaprakash, A. N., Khodade, Pravin, Rajarshi, Chaitanya, Joshi, Bhushan, Chordia, Pravin, Anche, Ramya M., Mishra, Shrish, Blinov, Dmitry, Eriksen, Hans Kristian, Ghosh, Tuhin, Gjerløw, Eirik, Mandarakas, Nikolaos, Panopoulou, Georgia V., Pavlidou, Vasiliki, Pearson, Timothy J., Pelgrims, Vincent, Potter, Stephen B., Readhead, Anthony C. S., Skalidis, Raphail, Tassis, Konstantinos, and Wehus, Ingunn K.

Abstract

WALOP (Wide-Area Linear Optical Polarimeter)-South, to be mounted on the 1m SAAO telescope in South Africa, is first of the two WALOP instruments currently under development for carrying out the PASIPHAE survey. Scheduled for commissioning in the year 2021, the WALOP instruments will be used to measure the linear polarization of around 10⁶ stars in the SDSS-r broadband with 0.1 % polarimetric accuracy, covering 4000 square degrees in the Galactic polar regions. The combined capabilities of one-shot linear polarimetry, high polarimetric accuracy (< 0.1 %) and polarimetric sensitivity (< 0.05 %), and a large field of view (FOV) of 35 35 arcminutes make WALOP-South a unique astronomical instrument. In a single exposure, it is designed to measure the Stokes parameters I, q and u in the SDSS-r broadband and narrowband filters between 500-700 nm. During each measurement, four images of the full field corresponding to the polarization angles of 0°, 45°, 90° and 135° will be imaged on four detectors and carrying out differential photometry on these images will yield the Stokes parameters. Major challenges in designing WALOP-South instrument include- (a) in the optical design, correcting for the spectral dispersion introduced by large split angle Wollaston Prisms used as polarization analyzers as well as aberrations from the wide field, and (b) making an optomechanical design adherent to the tolerances required to obtain good imaging and polarimetric performance under all temperature conditions as well as telescope pointing positions. We present the optical and optomechanical design for WALOP-South which overcomes these challenges.

Published
2020

39. Stress-induced birefringence in the lenses of Wide-Area Linear Optical Polarimeter-South

Author

Navarro, Ramón, Geyl, Roland, Anche, Ramya M., Maharana, Siddharth, Ramaprakash, A. N., Khodade, Pravin, Modi, Deepa, Rajarshi, Chaitanya, Kypriotakis, John A., Blinov, Dmitry, Eriksen, Hans Kristian, Ghosh, Tuhin, Panopoulou, Georgia V., Pelgrims, Vincent, Skalidis, Raphael, Pearson, Timothy J., Gjerløw, Eirik, Mandarakas, Nikolaos, Pavlidou, Vasiliki, Potter, Stephen B., Readhead, Anthony C. S., Tassis, Konstantinos, Basyrov, Artem, Papadaki, Katerina, Svalheim, Trygve Leithe, and Wehus, Ingunn K.

Published
2022
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45. Geometry of nova ejecta

Author

Pavana, M., primary, Anupama, G. C., additional, Anche, Ramya M., additional, Kamath, U. S., additional, and Selva Kumar, G., additional

Published
2019
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46. SN 2018hna: 1987A-like Supernova with a Signature of Shock Breakout

Author

Singh, Avinash, primary, Sahu, D. K., additional, Anupama, G. C., additional, Kumar, Brajesh, additional, Kumar, Harsh, additional, Yamanaka, Masayuki, additional, Baklanov, Petr V., additional, Tominaga, Nozomu, additional, Blinnikov, Sergei I., additional, Maeda, Keiichi, additional, Dutta, Anirban, additional, Bhalerao, Varun, additional, Anche, Ramya M., additional, Barway, Sudhanshu, additional, Akitaya, Hiroshi, additional, Nakaoka, Tatsuya, additional, Kawabata, Miho, additional, Kawabata, Koji S, additional, Sasada, Mahito, additional, Takagi, Kengo, additional, Maehara, Hiroyuki, additional, Isogai, Keisuke, additional, Kino, Masaru, additional, Taguchi, Kenta, additional, and Nagao, Takashi, additional

Published
2019
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