Fabrication of the NuSTAR flight optics

Craig, William W.; An, Hongjun; Blaedel, Kenneth L.; Christensen, Finn Erland; Decker, Todd A.; Fabricant, Anne; Gum, Jeff; Hailey, Charles J.; Hale, Layton C.; Jensen, Casper Bo; Koglin, Jason E.; Mori, Kaya; Nynka, Melanie; Pivovaroff, M. J.; Sharpe, Marton; Stern, Marcela; Tajiri, Gordon; Zhang, William W.

doi:10.1117/12.895278

Cited by 63 publications

(52 citation statements)

References 10 publications

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“…6 Here we briefly summarize the aspects of the optics design and fabrication that are of particular importance to calibration of the effective area and point spread response function (PSF). The NuSTAR optics are composed of 133 concentric layers of conical-approximation Wolter I mirrors aligned and held together by epoxy and precisely machined graphite spacers that run along the optic axis.…”

Section: Optics Design and Fabricationmentioning

confidence: 99%

“…Gravitational effects will not be present on orbit, and the optics were installed and mechanically aligned in the spacecraft with the optical axes aligned vertically (i.e., along the gravity vector) with a technique to avoid introducing stress on the optics. 6 Detailed raytrace simulations are required to fully quantify the systematic error and potentially introduce small corrections.…”

Section: One-dimensional Profile Measurements Of the Psf For Each 60 mentioning

confidence: 99%

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First results from the ground calibration of the NuSTAR flight optics

Koglin

Barrière

et al. 2011

SPIE Proceedings

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NuSTAR is a hard X-ray satellite experiment to be launched in 2012. Two optics with 10.15 m focal length focus Xrays with energies between 5 and 80 keV onto CdZnTe detectors located at the end of a deployable mast. The FM1 and FM2 flight optics were built at the same time based on the same design and with very similar components, and thus the performance of both is expected to be very similar. We provide an overview of calibration data that is being used to build an optics response model for each optic and describe initial results for energies above 10 keV from the ground calibration of the flight optics. From a preliminary analysis of the data, our current best determination of the overall HPD of both the FM1 and FM2 flight optics is 52", and nearly independent of energy. The statistical error is negligible, and a preliminary estimate of the systematic error is of order 4". The as-measured effective area and HPD meet the toplevel NuSTAR mission sensitivity requirements.

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Section: Optics Design and Fabricationmentioning

confidence: 99%

Section: One-dimensional Profile Measurements Of the Psf For Each 60 mentioning

confidence: 99%

First results from the ground calibration of the NuSTAR flight optics

Koglin

Barrière

et al. 2011

SPIE Proceedings

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“…As shown in Figure 2 (right panel), it has been able to make mirror substrates consistently at -6.5 are-seconds (HPD); Each entry in the histogram represents a substrate pair which has been precisely measured with optical metrology [19,20,21,22,23,24] and whose x-ray imaging performance calculated with standard performance prediction techniques. The glass slumping process is capable of making substrates the meet the requirements of a sub-l0 arc-second mirror assembly: It has been used to making the more than 10,000 substrates for the NuST AR mission [7].…”

Section: Technical Approaches and Statusmentioning

confidence: 99%

“…Suzaku [6] and NuSTAR [7] represent the state of the art oflightweight x-ray telescope making. They have angular resolutions of approximately 120 and 60 are-seconds, respectively.…”

Section: Mirror Segmentmentioning

confidence: 99%

Next generation astronomical x-ray optics: high angular resolution, light weight, and low production cost

et al. 2012

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X-ray astronomy depends on the availability of telescopes with high resolution and large photon collecting areas. Since x-ray observation can only be carried out above the atmosphere, these telescopes must be necessarily lightweight. Compounding the lightweight requirement is that an x-ray telescope consists of many nested concentric shells, which further require that x-ray mirrors must also be geometrically thin to achieve high packing efficiency. This double lightweight and geometrically thin requirement poses significant technical challenges in fabricating the mirrors and in integrating them into mirror assemblies. This paper reports on the approach, strategy and status of our x-ray optics development program whose objective is to meet these technical challenges at modest cost to enable future x -ray missions, including small Explorer missions in the near term, probe class missions in the medium term, and large flagship missions in the long term.

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“…Such telescopes assembling will be based on a principle of hierarchical integration: single mirrors segments will be integrated into elemental modules, usually called X-ray Optical Unit (XOU), then assembled and aligned in the Flight Mirror Assembly (FMA) through intermediate azimuthal structures to reestablish the cylindrical symmetry of the nested telescope with Wolter I (or a Wolter I approximation) optical design [8]. The slumping technology has already been successfully employed for the production of NuSTAR telescope, launched in 2012 [9], [10], able to deliver an image quality at focus of 45 arcsec HEW [11]. Additional studies are currently on going both by American and European research groups to further expand the technology in terms of achievable optical quality (the goal being 5 arcsec HEW) [12], [13].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of the surface strength of glass plates shaped by hot slumping process

et al. 2013

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Abstract:The Hot Slumping Technology is under development by several research groups in the world for the realization of grazing-incidence segmented mirrors for X-ray astronomy, based on thin glass plates shaped over a mould at temperatures above the transformation point. The performed thermal cycle and related operations might have effects on the strength characteristics of the glass, with consequences on the structural design of the elemental optical modules and consecutively on the entire X-ray optic for large astronomical missions like for example IXO and ATHENA. The mechanical strength of glass plates after they underwent the slumping process was tested through destructive double-ring tests in the Weibull statistic to assess the current IXO glass X-ray telescope design, in terms of survival probability, when subject to static and acoustic loads characteristic of the launch phase. The paper describes the activities performed and presents the obtained results.

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Fabrication of the NuSTAR flight optics

Cited by 63 publications

References 10 publications

First results from the ground calibration of the NuSTAR flight optics

First results from the ground calibration of the NuSTAR flight optics

Next generation astronomical x-ray optics: high angular resolution, light weight, and low production cost

Evaluation of the surface strength of glass plates shaped by hot slumping process

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