The high definition x-ray imager (HDXI) instrument on the Lynx X-ray Surveyor

Falcone, A.; Kraft, Ralph; Bautz, Marshall W.; Gaskin, Jessica A.; Mulqueen, John A.; Swartz, Doug

doi:10.1117/12.2313549

Cited by 6 publications

(7 citation statements)

References 6 publications

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“…The Lynx architecture is motivated by a dynamic science case to observe the first supermassive black holes and to understand the critical drivers of galaxy and stellar formation and evolution; phenomena only evident at high-energies. Lynx couples a large area, high-resolution, mirror assembly with good wide-field performance (0.5 arcsecond Half Power Diameter (HPD) on-axis, <~1 arcsecond to ~10 arcminutes) to a suite of three science instruments that includes the High Definition X-ray Imager (HDXI) 2,3,4 , the Lynx X-ray Microcalorimeter (LXM) 5 , and the X-ray Grating Spectrometer (XGS) 6,7 . Multiple candidate technologies for the Lynx mirrors exist, three of which are being studied in detail by the Lynx Team.…”

Section: Fascinating Observationsmentioning

confidence: 99%

“…In addition, this detector must have excellent soft X-ray spectral response to these (redshifted) sources and have moderate spectral resolution across the ~0.2 to ~10 keV band to deduce thermodynamic properties of the hot gas in galactic halos and other extended objects. A silicon active pixel sensor array of fine pixel scale (0.3 arcsecond) and large format (23 arcminutes x 23 arcminutes FOV), such as HDXI, is capable of meeting these requirements 2 .…”

Section: Science Instrumentsmentioning

confidence: 99%

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The Lynx X-ray Observatory: concept study overview and status

Gaskin

Dominguez

Gelmis

et al. 2018

Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray

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Lynx, one of four strategic mission concepts under study for the 2020 Astrophysics Decadal Survey, will provide leaps in capability over previous and planned X-ray missions, and will provide synergistic observations in the 2030s to a multitude of space-and ground-based observatories across all wavelengths. Lynx will have orders of magnitude improvement in sensitivity, on-axis sub-arcsecond imaging with arcsecond angular resolution over a large field of view, and high-resolution spectroscopy for point-like and extended sources. The Lynx architecture enables a broad range of unique and compelling science, to be carried out mainly through a General Observer Program. This Program is envisioned to include detecting the very first supermassive black holes, revealing the high-energy drivers of galaxy and structure formation, characterizing the mechanisms that govern stellar activity -including effects on planet habitability, and exploring the highest redshift galaxy clusters. An overview and status of the Lynx concept are summarized.

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Section: Fascinating Observationsmentioning

confidence: 99%

Section: Science Instrumentsmentioning

confidence: 99%

The Lynx X-ray Observatory: concept study overview and status

Gaskin

Dominguez

Gelmis

et al. 2018

Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray

Self Cite

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“…Charge cloud diffusion in a suitably thick device (∼100 µm depletion) allows centroiding of the incoming photon on sub-pixels scales and somewhat larger pixels of ∼16 µm (0.34 ) can be used. 2,3 Higher readout rates and smaller pixels will substantially reduce the particle background through superior multi-pixel filtering of the larger charge clouds produced by cosmic rays and significantly reduce pile-up from bright point sources. Current CCD technology achieves 2.5 Mpix s −1 transfer rates with readout noise less than 7e-giving good spectral resolution and low energy capability.…”

Section: Detectormentioning

confidence: 99%

“…CCD and CMOS detectors with the needed properties are being developed today. 2,3 AXIS has been studied at the NASA Goddard Space Flight Center (GSFC) Instrument and Mission Design Labs (IDL/MDL) and a spacecraft design has been developed using proven spacecraft components and methods for attitude reconstruction compatible with the angular resolution. The estimated mission cost was well below the $1B cost cap for a Probe mission in 2018 dollars.…”

Section: Introductionmentioning

confidence: 99%

AXIS: A Probe Class Next Generation High Angular Resolution X-ray Imaging Satellite

Mushotzky

2018

Preprint

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AXIS is a probe-class concept under study for submission to the 2020 Decadal survey. AXIS will extend and enhance the science of high angular resolution X-ray imaging and spectroscopy in the next decade with ∼ 0.4 angular resolution over a 24 × 24 field of view, with 0.3" in the central 14 × 14 , and an order of magnitude more collecting area than Chandra in the 0.3−12 keV band with a cost consistent with a probe.These capabilities are made possible by precision-polished lightweight single-crystal silicon optics achieving both high angular resolution and large collecting area, and next generation small-pixel silicon detectors adequately sampling the point spread function and allowing timing science and preventing pile up with high read-out rate. We have selected a low earth orbit to enable rapid target of opportunity response, similar to Swift, with a high observing efficiency, low detector background and long detector life.The combination opens a wide variety of new and exciting science such as: (1) measuring the event horizon scale structure in AGN accretion disks and the spins of supermassive black holes through observations of gravitationally-microlensed quasars; (ii) determining AGN and starburst feedback in galaxies and galaxy clusters through direct imaging of winds and interaction of jets and via spatially resolved imaging of galaxies at high-z; (iii) fueling of AGN by probing the Bondi radius of over 20 nearby galaxies; (iv) hierarchical structure formation and the SMBH merger rate through measurement of the occurrence rate of dual AGN and occupation fraction of SMBHs; (v) advancing SNR physics and galaxy ecology through large detailed samples of SNR in nearby galaxies; (vi) measuring the Cosmic Web through its connection to cluster outskirts; (vii) a wide variety of time domain science including rapid response to targets of opportunity.With a nominal 2028 launch, AXIS benefits from natural synergies with the ELTs, LSST, ALMA, WFIRST and ATHENA. The AXIS team welcomes input and feedback from the community in preparation for the 2020 Decadal review.

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“…The majority of the description in this paper was presented at the SPIE Astronomical Telescopes meeting in 2018 and was reported in the associated proceedings. 5…”

Section: Introductionmentioning

confidence: 99%

Overview of the high-definition x-ray imager instrument on the Lynx x-ray surveyor

Falcone¹,

Kraft

Bautz

et al. 2019

J. Astron. Telesc. Instrum. Syst.

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Four NASA Science and Technology Definition Teams have been convened in order to develop and study four mission concepts to be evaluated by the upcoming 2020 Decadal Survey. The Lynx x-ray surveyor mission is one of these four large missions. Lynx will couple fine angular resolution (<0.5 arcsec HPD) x-ray optics with large effective area (∼2 m 2 at 1 keV), thus enabling exploration within a unique scientific parameter space. One of the primary soft x-ray imaging instruments being baselined for this mission concept is the highdefinition x-ray imager, HDXI. This instrument would use a finely pixelated silicon sensor array to achieve fine angular resolution imaging over a wide field of view (∼22 × 22 arcmin). Silicon sensors enable large-format/ small-pixel devices, radiation tolerant designs, and high quantum efficiency across the entire soft x-ray bandpass. To fully exploit the large collecting area of Lynx (∼30× Chandra), with negligible or minimal x-ray event pile-up, the HDXI will be capable of much faster frame rates than current x-ray imagers. We summarize the planned requirements, capabilities, and development status of the HDXI instrument, and associated papers in this special edition will provide further details on some specific detector options. © The Authors. Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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The high definition x-ray imager (HDXI) instrument on the Lynx X-ray Surveyor

Cited by 6 publications

References 6 publications

The Lynx X-ray Observatory: concept study overview and status

The Lynx X-ray Observatory: concept study overview and status

AXIS: A Probe Class Next Generation High Angular Resolution X-ray Imaging Satellite

Overview of the high-definition x-ray imager instrument on the Lynx x-ray surveyor

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