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1. Technical and scientific performance of the prototype Schwarzschild-Couder telescope for CTA

   https://doi.org/10.1117/12.2594580  

   Adams, Colin B.; Ambrosi, Giovanni; Ambrosio, Michelangelo; Aramo, Carla; Batista, Pedro I.; Benbow, Wystan; Bertucci, Bruna; Bissaldi, Elisabetta; Bitossi, Massimiliano; Boiano, Alfonso; et al (August 2021, Proceedings Volume 11820, Astronomical Optics: Design, Manufacture, and Test of Space and Ground Systems III;)

   Hallibert, Pascal; Hull, Tony B.; Kim, Daewook; Keller, Fanny (Ed.)

   The Cherenkov Telescope Array (CTA) is the next-generation ground-based observatory for very-high-energy gamma rays. One candidate design for CTA's medium-sized telescopes consists of the Schwarzschild-Couder Telescope (SCT), featuring innovative dual-mirror optics. The SCT project has built and is currently operating a 9.7-m prototype SCT (pSCT) at the Fred Lawrence Whipple Observatory (FLWO); such optical design enables the use of a compact camera with state-of-the art silicon photomultiplier detectors. A partially-equipped camera has recently successfully detected the Crab Nebula with a statistical significance of 8.6 standard deviations. A funded upgrade of the pSCT focal plane sensors and electronics is currently ongoing, which will bring the total number of channels from 1600 to 11328 and the telescope field of view from about 2.7° to 8° . In this work, we will describe the technical and scientific performance of the pSCT. 

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2. Verification of the optical system of the 9.7-m prototype Schwarzschild-Couder Telescope

   https://doi.org/10.1117/12.2568134  

   Adams, Colin; Alfaro, Ruben; Ambrosi, Giovanni; Ambrosio, Michelangelo; Aramo, Carla; Benbow, Wystan; Bertucci, Bruna; Bissaldi, Elisabetta; Bitossi, M.; Boiano, Alfonso; et al (August 2020, SPIE Optical Engineering + Applications, 2020, Online Only)

   Sasián, José; Youngworth, Richard N. (Ed.)

   For the first time in the history of ground-based x-ray astronomy, the on-axis performance of the dual mirror, aspheric, aplanatic Schwarzschild-Couder optical system has been demonstrated in a 9:7-m aperture imaging atmospheric Cherenkov telescope. The novel design of the prototype Schwarzschild-Couder Telescope (pSCT) is motivated by the need of the next-generation Cherenkov Telescope Array (CTA) observatory to have the ability to perform wide (>=8°) field-of-view observations simultaneously with superior imaging of atmospheric cascades (resolution of 0:067 per pixel or better). The pSCT design, if implemented in the CTA installation, has the potential to improve significantly both the x-ray angular resolution and the off-axis sensitivity of the observatory, reaching nearly the theoretical limit of the technique and thereby making a major impact on the CTA observatory sky survey programs, follow-up observations of multi-messenger transients with poorly known initial localization, as well as on the spatially resolved spectroscopic studies of extended x-ray sources. This contribution reports on the initial alignment procedures and point-spread-function results for the challenging segmented aspheric primary and secondary mirrors of the pSCT. 

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3. A multiwavelength study of multiple spectral component jets in AGN: testing the IC/CMB model for the large-scale-jet X-ray emission

   https://doi.org/10.1093/mnras/stac3081  

   Breiding, Peter; Meyer, Eileen T.; Georganopoulos, Markos; Reddy, Karthik; Kollmann, Kassidy E.; Roychowdhury, Agniva (October 2022, Monthly Notices of the Royal Astronomical Society)

   ABSTRACT Over ∼150 resolved, kpc-scale X-ray jets hosted by active galactic nuclei have been discovered with the Chandra X-ray Observatory. A significant fraction of these jets have an X-ray spectrum either too high in flux or too hard to be consistent with the high-energy extension of the radio-to-optical synchrotron spectrum, a subtype we identify as Multiple Spectral Component (MSC) X-ray jets. A leading hypothesis for the origin of the X-rays is the inverse-Compton scattering of the cosmic microwave background by the same electron population producing the radio-to-optical synchrotron spectrum (known as the IC/CMB model). In this work, we test the IC/CMB model in 45 extragalactic X-ray jets using observations from the Fermi Large Area Telescope to look for the expected high level of gamma-ray emission, utilizing observations from the Atacama Large Millimeter/submillimeter Array (ALMA) and the Hubble Space Telescope (HST) when possible to best constrain the predicted gamma-ray flux. Including this and previous works, we now find the IC/CMB model to be ruled out in a total of 24/45 MSC X-ray jets due to its over-prediction for the observed MeV-to-GeV gamma-ray flux. We present additional evidence against the IC/CMB model, including the relative X-ray-to-radio relativistic beaming in these sources, and the general mismatch between radio and X-ray spectral indexes. Finally, we present upper limits on the large-scale bulk-flow Lorentz factors for all jets based on the Fermi upper limits, which suggest that these jets are at most mildly relativistic. 

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4. Coded aperture compressive X-ray spectral CT

   https://doi.org/10.1109/sampta.2017.8024374  

   Cuadros, Angela P.; Arce, Gonzalo R. (July 2017, 2017 International Conference on Sampling Theory and Applications (SampTA))

   Spectral computed tomography (SCT) makes use of the spectral dependence of X-ray attenuation in tissues and contrast agents to separate the attenuation data into more than two energy bins. Current SCT detectors are costly and the measured data have low signal to noise ratio due to the detector's narrow bin bandwidth and quantum noise. A new approach called coded aperture compressive X-ray SCT that combines a conventional rotating X-ray CT system with a set of pixelated K-edge coded apertures is introduced. In this method, the amplitude and spectra of the X-ray source are filtered by a particular pattern of K-edge filters in each view angle. Compressed sensing (CS) reconstruction algorithms are then used to recover the spectral CT image from the coded measurements. Simulations results for random coded apertures are shown, and their performance is compared to the use of uncoded measurements. 

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5. Gamma-Ray Bursts Observed by the Transiting Exoplanet Survey Satellite: Prompt Optical Counterparts and Afterglows of Swift-XRT-localized Gamma-Ray Bursts

   https://doi.org/10.3847/1538-4357/ad5e7b  

   Jayaraman, Rahul; Fausnaugh, Michael; Ricker, George R; Vanderspek, Roland; Mo, Geoffrey (September 2024, The Astrophysical Journal)

   Abstract Very few detections have been made of optical flashes contemporaneous with prompt high-energy emission from a gamma-ray burst (GRB). In this work, we present and analyze light curves of GRB-associated optical flashes and afterglows from the Transiting Exoplanet Survey Satellite (TESS). Our sample consists of eight GRBs with arcsecond-level localizations from the X-Ray Telescope on board the Neil Gehrels Swift Observatory (Swift). For each burst, we characterize the prompt optical emission and any observed afterglow, and constrain physical parameters for four of these bursts using their TESS light curves. This work also presents a straightforward method to correct for TESS's cosmic-ray mitigation strategy on 20 s timescales, which allows us to estimate the “true” brightness of optical flashes associated with prompt GRB emission. We also highlight TESS’s continuous wide-field monitoring capability, which provides an efficient means of identifying optical emission from GRBs and characterizing early time afterglow light curves. Based on empirical detection rates from Swift and the Fermi Gamma-ray Space Telescope, up to 10 GRBs per year may fall within the contemporaneous TESS field of view. 

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