Direct hot slumping and accurate integration process to manufacture prototypal x-ray optical units made of glass

Civitani, M.; Ghigo, M.; Basso, S.; Proserpio, L.; Spiga, D.; Salmaso, B.; Pareschi, G.; Tagliaferri, G.; Burwitz, V.; Hartner, Gisela; Menz, Benedikt; Bavdaz, Marcos; Wille, E.

doi:10.1117/12.2023707

Cited by 10 publications

(19 citation statements)

References 16 publications

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“…In green are indicated the data of the central part of the glass at the corresponding energy. These results are quite in line with the expectation from the metrological characterization of the external layer [10] where the expected HEW of PPO was inferred around 17''. We can expect few arcsec difference due to metrology accuracy.…”

Section: Poc#2 In Focus Calibration Resultssupporting

confidence: 93%

“…This time the layers were mounted in co-focal configuration in order to check the alignment performance of the IMA. The metrological data (available in summer 2013) have been reported in [10]. With respect to the final X-ray calibration, the 20 meters focal length of the model posed some constrain in the facility schedule, as an extension of the normal set-up has to be mounted [12].…”

Section: Overview Of the Integrated Prototypes Resultsmentioning

confidence: 99%

“…This alignment feature can be used to check the correct alignment of the system. Initially the alignment has been checked trough UV data on the UV bench available at INAF/OAB and the results were in line with expectations [10]. A final assessment has been possible during the X-ray calibration activities performed at Panter/MPE.…”

Section: Poc#2 Pps Alignment Check: Uv Data Versus X-rays Calibrationmentioning

confidence: 98%

“…This achievement was inferred thought the metrological data acquired on UV bench. Moreover the expected optical quality of the external layer was evaluated around 17'' trough metrological characterization [10] and looking at the intra-focal images acquired at Panter/MPE [11].…”

Section: Introductionmentioning

confidence: 99%

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X-ray optical units made of glass: achievements and perspectives

et al. 2014

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Future X-ray telescopes with very large collecting area, like the proposed Athena with more than 2 m 2 effective area at 1 keV, need to be realized as assemblies of a large number of X-ray optical units, named X-ray Optical Units (XOUs). The Brera Astronomical Observatory (INAF-OAB) is developing a new technology to manufacture these modular elements, compatible with an angular resolution of 5 arcsec HEW (Half-Energy-Width). This technique consists in stacking in a Wolter-I configuration several layers of thin foils of glass, previously formed by direct hot slumping. The achievable global angular resolution of the optics relies on the required surface shape accuracy of slumped foils, on the smoothness of the mirror surfaces and on the correct integration and co-alignment of the mirror segments operated trough a dedicated Integration Machine (IMA). In this paper we provide an overview of the project development, reporting on the very promising results achieved so far, including in-focus full illumination X-ray tests of the prototype (Proof of Concept, POC#2, integrated at the beginning of 2013) for which an HEW of 22.1'' has been measured at Panter/MPE. Moreover we report on the on-going activities, with a new integrated prototype (PoC#3). X-ray test in pencil beam revealed that at least a segment between two external ribs is characterized by an HEW well below 10''. Lastly, the overall process up-grade to go from 20 m to 12m focal length (to be compatible with Athena+ configuration) is presented.

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Section: Poc#2 In Focus Calibration Resultssupporting

confidence: 93%

Section: Overview Of the Integrated Prototypes Resultsmentioning

confidence: 99%

Section: Poc#2 Pps Alignment Check: Uv Data Versus X-rays Calibrationmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

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X-ray optical units made of glass: achievements and perspectives

et al. 2014

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“…NUSTAR demonstrated the success of such approach and in Europe several modules have been produced to demonstrate the feasibility of mirror stacks with high spatial resolution [3] : they are based essentially on two technologies, the Silicon Pore Optics [4] (SPO) and Slumped Glass Optics [5] [6] (SGO). In INAFOsservatorio Astronomico di Brera (OAB), the slumping glass technology has been developed and several prototypes have been produced in the latest years [7] integrating separated slumped glass foils with glass ribs as spacers. The advantage of the SPO is the compactness of the optical stack, even if it does not mean a lower mass because the gain of a smaller optical mirror shells, and therefore lighter mechanical structure and ribs, can be balanced by an increase of the mass due to the higher ribs vignetting into the optics.…”

Section: Introductionmentioning

confidence: 99%

A high resolution large x-ray mission based on thin glass: optomechanical design

et al. 2014

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The technology of X-ray optics based on very thin glass sheets curved on mandrels figured to an optical quality have been quickly developed in these last years, as the on flight NUSTAR or the glass solutions for the IXO mission have demonstrated. Different possibilities to freeze the correct shape can be chosen and the constrains to the glass can widely affect the response in term of strength and quality. This study shows the opto-mechanical performances of the design based on the hot slumped glass sheets stiffed with reinforcing ribs. With this concept a glass stack can be integrated into a mechanical structure in order to form a module that can be assembled in a large structure. The considered input data and requirements are those specified for the proposed Athena mission. Different types of materials are considered following the latest progress in the slumping and the availability of alternative tougher glass. Static and dynamic FE analyses coupled with ray-tracing are performed in order to reach a high resolution (less than 5 arcsec). Also an optimization of the ribs distribution is implemented in function of the radius of curvature.

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Manufacturing an active X-ray mirror prototype in thin glass

et al. 2016

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Adjustable mirrors equipped with piezo actuators are commonly used at synchrotron and free-electron laser (FEL) beamlines, in order to optimize their focusing properties and sometimes to shape the intensity distribution of the focal spot with the desired profile. Unlike them, X-ray mirrors for astronomy are much thinner in order to enable nesting and reduce the areal mass, and the application of piezo actuators acting normally to the surface appears much more difficult. There remains the possibility to correct the deformations using thin patches that exert a tangential strain on the rear side of the mirror: some research groups are already at work on this approach. The technique reported here relies on actively integrating thin glass foils with commercial piezoceramic patches, fed by voltages driven by the feedback provided by X-rays, while the tension signals are carried by electrodes on the back of the mirror, obtained by photolithography. Finally, the shape detection and the consequent voltage signal to be provided to the piezoelectric array will be determined by X-ray illumination in an intra-focal setup at the XACT facility. In this work, the manufacturing steps for obtaining a first active mirror prototype are described.

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Direct hot slumping and accurate integration process to manufacture prototypal x-ray optical units made of glass

Cited by 10 publications

References 16 publications

X-ray optical units made of glass: achievements and perspectives

X-ray optical units made of glass: achievements and perspectives

A high resolution large x-ray mission based on thin glass: optomechanical design

Manufacturing an active X-ray mirror prototype in thin glass

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