6 results on '"De Geronimo, G."'
Search Results
2. The design and performance of the XL-Calibur anticoincidence shield.
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Iyer, N.K., Kiss, M., Pearce, M., Stana, T.-A., Awaki, H., Bose, R.G., Dasgupta, A., De Geronimo, G., Gau, E., Hakamata, T., Ishida, M., Ishiwata, K., Kamogawa, W., Kislat, F., Kitaguchi, T., Krawczynski, H., Lisalda, L., Maeda, Y., Matsumoto, H., and Miyamoto, A.
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POLARISCOPE , *BACKGROUND radiation , *TEST design , *POLARIMETRY , *PHOTOMULTIPLIERS , *X-rays - Abstract
The XL-Calibur balloon-borne hard X-ray polarimetry mission comprises a Compton-scattering polarimeter placed at the focal point of an X-ray mirror. The polarimeter is housed within a BGO anticoincidence shield, which is needed to mitigate the considerable background radiation present at the observation altitude of ∼ 40 km. This paper details the design, construction and testing of the anticoincidence shield, as well as the performance measured during the week-long maiden flight from Esrange Space Centre to the Canadian Northwest Territories in July 2022. The in-flight performance of the shield followed design expectations, with a veto threshold < 100 keV and a measured background rate of ∼ 0.5 Hz (20–40 keV). This is compatible with the scientific goals of the mission, where %-level minimum detectable polarisation is sought for a Hz-level source rate. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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3. Performance of the X-Calibur hard X-ray polarimetry mission during its 2018/19 long-duration balloon flight.
- Author
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Abarr, Q., Beheshtipour, B., Beilicke, M., Bose, R., Braun, D., de Geronimo, G., Dowkontt, P., Errando, M., Gadson, T., Guarino, V., Heatwole, S., Hossen, M., Iyer, N., Kislat, F., Kiss, M., Kitaguchi, T., Krawczynski, H., Lanzi, J., Li, S., and Lisalda, L.
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HARD X-rays , *POLARIMETRY , *THRESHOLD energy , *POLARISCOPE , *X-rays , *BERYLLIUM , *X-ray scattering - Abstract
X-Calibur is a balloon-borne telescope that measures the polarization of high-energy X-rays in the 15–50 keV energy range. The instrument makes use of the fact that X-rays scatter preferentially perpendicular to the polarization direction. A beryllium scattering element surrounded by pixellated CZT detectors is located at the focal point of the InFOCµS hard X-ray mirror. The instrument was launched for a long-duration balloon (LDB) flight from McMurdo (Antarctica) on December 29, 2018, and obtained the first constraints of the hard X-ray polarization of an accretion-powered pulsar. Here, we describe the characterization and calibration of the instrument on the ground and its performance during the flight, as well as simulations of particle backgrounds and a comparison to measured rates. The pointing system and polarimeter achieved the excellent projected performance. The energy detection threshold for the anticoincidence system was found to be higher than expected and it exhibited unanticipated dead time. Both issues will be remedied for future flights. Overall, the mission performance was nominal, and results will inform the design of the follow-up mission XL-Calibur , which is scheduled to be launched in summer 2022. [ABSTRACT FROM AUTHOR]
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- 2022
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4. Elemental X-ray imaging using the Maia detector array: The benefits and challenges of large solid-angle
- Author
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Ryan, C.G., Kirkham, R., Hough, R.M., Moorhead, G., Siddons, D.P., de Jonge, M.D., Paterson, D.J., De Geronimo, G., Howard, D.L., and Cleverley, J.S.
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NUCLEAR counters , *X-rays , *SOLID geometry , *QUANTITATIVE research , *IMAGING systems , *COMPUTER software , *PROTOTYPES , *SYNCHROTRON radiation - Abstract
Abstract: The fundamental parameter method for quantitative SXRF and PIXE analysis and imaging using the dynamic analysis method is extended to model the changing X-ray yields and detector sensitivity with angle across large detector arrays. The method is implemented in the GeoPIXE software and applied to cope with the large solid-angle of the new Maia 384 detector array and its 96 detector prototype developed by CSIRO and BNL for SXRF imaging applications at the Australian and NSLS synchrotrons. Peak-to-background is controlled by mitigating charge-sharing between detectors through careful optimization of a patterned molybdenum absorber mask. A geological application demonstrates the capability of the method to produce high definition elemental images up to ∼100M pixels in size. [Copyright &y& Elsevier]
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- 2010
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5. HX-POL—A Balloon-Borne Hard X-Ray Polarimeter.
- Author
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Krawczynski, H., Garson III, A., Martin, J., Li, Q., Beilicke, M., Dowkontt, P., Lee, K., Wulf, E., Kurfess, J., Novikova, E. I., de Geronimo, G., Baring, M. G., Harding, A. K., Grindlay, J., and Hong, J. S.
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POLARISCOPE , *DETECTORS , *TELLURIDES , *X-rays , *POLARIZATION (Electricity) , *PHOTONS - Abstract
We report on the design and estimated performance of a balloon-borne hard X-ray polarimeter called HX-POL. The experiment uses a combination of Si and Cadmium Zinc Telluride detectors to measure the polarization of 50 keV-400 keV X-rays from cosmic sources through the dependence of the angular distribution of Compton scattered photons on the polarization direction. On a one-day balloon flight, HX-POL would allow us to measure the polarization of bright Crab-like sources for polarization degrees well below 10%. On a longer (15-30 day) flight from Australia or Antarctica, HX-POL would be be able to measure the polarization of bright galactic X-ray sources down to polarization degrees of a few percent. Hard X-ray polarization measurements provide unique venues for the study of particle acceleration processes by compact objects and relativistic outflows. In this paper, we discuss the overall instrument design and performance. Furthermore, we present results from laboratory tests of the Si and CZT detectors. [ABSTRACT FROM AUTHOR]
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- 2009
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6. XL-Calibur – a second-generation balloon-borne hard X-ray polarimetry mission.
- Author
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Abarr, Q., Awaki, H., Baring, M.G., Bose, R., De Geronimo, G., Dowkontt, P., Errando, M., Guarino, V., Hattori, K., Hayashida, K., Imazato, F., Ishida, M., Iyer, N.K., Kislat, F., Kiss, M., Kitaguchi, T., Krawczynski, H., Lisalda, L., Matake, H., and Maeda, Y.
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HARD X-rays , *X-rays , *CADMIUM zinc telluride , *POLARIMETRY , *POLARISCOPE , *BALLOONING - Abstract
XL-Calibur is a hard X-ray (15-80 keV) polarimetry mission operating from a stabilised balloon-borne platform in the stratosphere. It builds on heritage from the X-Calibur mission, which observed the accreting neutron star GX 301 - 2 from Antarctica, between December 29th 2018 and January 1st 2019. The XL-Calibur design incorporates an X-ray mirror, which focusses X-rays onto a polarimeter comprising a beryllium rod surrounded by Cadmium Zinc Telluride (CZT) detectors. The polarimeter is housed in an anticoincidence shield to mitigate background from particles present in the stratosphere. The mirror and polarimeter-shield assembly are mounted at opposite ends of a 12 m long lightweight truss, which is pointed with arcsecond precision by WASP – the Wallops Arc Second Pointer. The XL-Calibur mission will achieve a substantially improved sensitivity over X-Calibur by using a larger effective area X-ray mirror, reducing background through thinner CZT detectors, and improved anticoincidence shielding. When observing a 1 Crab source for t day days, the Minimum Detectable Polarisation (at 99% confidence level) is ∼ 2 % · t day − 1 / 2 . The energy resolution at 40 keV is ∼ 5.9 keV. The aim of this paper is to describe the design and performance of the XL-Calibur mission, as well as the foreseen science programme. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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