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47 results on '"Giorgio Toso"'

1. Spectroscopic observation of planetary and moon exospheres in the ultraviolet

Author

Maria Guglielmina Pelizzo, Padovani Marta, Alain Jody Corso, Giovanni Santi, Michela C. Uslenghi, Daniele Faccini, Mauro Fiorini, Salvatore Incorvaia, Giorgio Toso, Edoardo Fabbrica, Marco Carminati, Carlo E. Fiorini, Giulio Favaro, Marco Bazzan, Gianluigi Maggioni, Giampiero Naletto, Vincenzo Andretta, and Anna Milillo

Subjects
micro-channel plates, gratings, ultraviolet, spectrometer, gratings, micro-channel plates, application specific integrated circuit, exospheres, exospheres, application specific integrated circuit, ultraviolet, spectrometer
Published
2022

4. Development of a novel photon counting detector for UV spectrographs

Author

Michela C. Uslenghi, Daniele Faccini, Mauro Fiorini, Salvatore Incorvaia, Giorgio Toso, Luca Schettini, Marco Carminati, Edoardo Fabbrica, Carlo Fiorini, Maria G. Pelizzo, and Alain J. Corso

Subjects
Photon Counting, ASIC, Microchannel Plates, ASIC, Photon Counting, Ultraviolet, Detector, Spectroscopy, Image sensor, Astrophysics, Detector, Astrophysics, Image sensor, Spectroscopy, Microchannel Plates, Ultraviolet
Published
2022

5. A novel approach for fast and effective realization of high-resolution x-ray optics in metal

Author

Giorgio Toso, Luigi Lessio, Marta Civitani, S. Incorvaia, Stefano Basso, G. Vecchi, and Giovanni Pareschi

Subjects
Figuring, Machining, Computer science, Replica, X-ray optics, Mechanical engineering, Polishing, Diamond turning, Focus (optics), Realization (systems)
Abstract

The favorite solution foreseen for the realization of future very large x-ray mirror modules (diameters above 1 m) is the partition of the optics in azimuthal and radial modules. Even if this approach solves the initial problem of the procurement and the handling of very large substrates, it moves the difficulties in the second phase, when thousands of segments have to be aligned and assembled without degrading their optical performances. The usage of large monolithic shells would provide indubitable advantages with respect to the segmented approach, but poses challenging procurement problems. For example, in the case of Lynx, where superb imaging capabilities are combined with a very large effective area, a mirror module with 3mdiameter is foreseen. One of the three technologies considered by the Study Team for the realization of the mirrors is based on monolithic glass (fused silica) shells, figured with direct polishing technique. The simplicity of the full shell concept is quite attractive: the complete optics module could be composed of few hundreds of parts instead of several thousands of pieces. As a drawback, to be compliant with the mass budget, the shell thickness should be maintained very small even for larger mirror shells. Given that the glass is a brittle material, the procurement of such large raw shells, and of their spares, is considered the major critical issue of the process. In order to overcome the difficulties and the cost related to the assembly of thousands of segments, a straightforward way to realize very large monolithic raw mirrors shells is needed. In this paper we present the first results related to an alternative approach, based on light-weighted metal sheets, which could have an astonishing impact on the full shell concept, providing very large shells at negligible costs. In particular, we focus on spin forming technology, commonly used for the realization of axial-symmetric parts. This process makes use of a rotating machine to deform metal over a pre-shaped mold. As a replica approach, it allows the realization of several back up optics without major impacts on the costs, as it would be the case if the mirror shell realization starts from blanks machining. Aluminium is commonly used in plate turning. Given its low density and good mechanical properties, it may represent an effective and cheap alternative to more exotic low-density materials or to the glass itself. Metal optics, made of Aluminium 6061, are already widely used to fulfil the demands of a-thermal instrument design. Starting from aluminum substrates, diamond turning can be used for figuring the optic. An additional thin layer of electro-less nickel will allow final figuring and polishing. These further figuring processes are nowadays well proven on thick substrates, allowing the realization of optics with cutting-edge performances. Their successful employ on thin shell substrates would open new window on x-ray optics realization.

Published
2021

6. Progress on high-resolution thin full monolithic shells made of glass for Lynx

Author

Mauro Ghigo, Daniele Spiga, Marta Civitani, G. Vecchi, Giorgio Toso, Stefano Basso, Giancarlo Parodi, Luigi Lessio, Giovanni Pareschi, Edoardo Maria Alberto Redaelli, and S. Incorvaia

Subjects
Computer science, Observatory, Process (computing), Shell (structure), Mechanical engineering, High resolution, Technology development, Throughput (business), Realization (systems), Mass budget
Abstract

The Lynx X-ray Observatory, with superb imaging capabilities and with large throughput, is one of the four large strategic missions considered in the Astro2020 decadal survey. The realization of the mirror assembly within the desired tolerances is quite challenging and different mirror module concepts are proposed. The simplest mirror module design corresponds to less than a few hundred monolithic shells made of fused silica. The complete optomechanical design, compliant with the mass budget, foresees that the shell thickness ranges between 2 and 4 mm (for mirror shells between 0.4 and 3 m diameter). A technology development roadmap for this approach is funded in Italy by ASI and pursued out by INAF-OAB. In this paper, we present the advancements obtained in the procurement of new raw glass shells, in the development of the different phases of the process, and in the realization of a new single-reflection shell, representative of the final optical configuration suitable to validate the

Published
2021

7. The PLanetary extreme Ultraviolet Spectrometer Project

Author

Marco Carminati, Giorgio Toso, S. Incorvaia, Carlo Fiorini, Maria Guglielmina Pelizzo, A. J. Corso, Marco Bazzan, M. Fiorini, Giovanni Luca Santi, Edoardo Fabbrica, Gianluigi Maggioni, Michela Uslenghi, and Giulio Favaro

Subjects
Physics, Time delay and integration, Spectrometer, business.industry, Dynamic range, Extreme ultraviolet lithography, Application specific integrated circuit, Gratings, Micro-channel plates, Ultraviolet, Solar physics, Interstellar medium, Optics, Extreme ultraviolet, Physics::Space Physics, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, business, Spectrograph
Abstract

Spectroscopic observations in the vacuum (VUV, 115-200 nm) and extreme ultraviolet (EUV, 40-115 nm) is of fundamental importance in solar physics, in the physics of interstellar medium, in the study of planetary exospheres. The PLUS project is focused on the development of a high performance spectrograph for the observations of planetary exospheres in the 55-200 nm range. The instrument layout is based on a two channels (VUV/EUV) design. It will be characterized by improved detection limit, shorter observations integration time and unprecedented performance in terms of dynamic range. Such characteristics will be obtained thanks to the development and combination of two key technologies: high efficiency optical components optimized for each channel and high resolution/dynamic range solar blind photon counting detector. The photon counting detector will be based on a Micro-Channel Plate coupled with ROIC ASIC read out system.

Published
2021

9. Lynx optics based on full monolithic shells: design and development

Author

G. Vecchi, Marta Civitani, Mauro Ghigo, K. Kiranmayee, R. Elsner, Stefano Basso, J. Davis, J. Hołyszko, G. Pareschi, Giorgio Toso, Giancarlo Parodi, D. Swartz, ITA, and USA

Subjects
Figuring, Fabrication, Materials science, Antenna aperture, Shell (structure), Mechanical engineering, Polishing, 01 natural sciences, law.invention, Stiffening, 010309 optics, Telescope, law, 0103 physical sciences, 010303 astronomy & astrophysics, Throughput (business)
Abstract

Lynx is an X-ray mission concept with superb imaging capabilities (< 1arcsec Half Energy Width, HEW) and large throughput (2 m2 effective area @1keV). Several approaches are being considered to meet the challenging technological task of the mirror fabrication. Thin and light substrates are necessary to meet mass constraints. Monolithic fused silica shells are a possible solution if their thickness can be maintained to below 4 mm for mirror shells up to 3 m diameter. In this paper we present the opto-mechanical design of the mirror assembly, the technological processes, and the results achieved so far on a prototypal shells under development. In particular, emphasis is placed on the figuring process that is based on direct polishing and on ion beam figuring and on a temporary stiffening structure designed to support the shell during the figuring and polishing operations and to manage the handling of the shell through all phases up to integration into the telescope supporting structure.

Published
2018

10. ESPRESSO: The next European exoplanet hunter

Author

C. Lovis, M. Amate, Olaf Iwert, B. Delabre, V. Baldini, M. Affolter, Giorgio Toso, Hans Dekker, V. De Caprio, Nuno C. Santos, Florian Kerber, L. Genolet, I. Hughes, Igor Coretti, Matteo Aliverti, P. Di Marcantonio, Filippo Maria Zerbi, C. Broeg, Rafael Rebolo, Eros Vanzella, M. R. Zapatero Osorio, Paolo Molaro, Guido Cupani, J.-L. Lizon, Valentina D'Odorico, P. Spano, Charles Maire, S. Galeotta, Marco Landoni, Gerardo Avila, J. L. Rasilla, Marco Riva, S. Santana Tschudi, Ricardo Gomes, Paul Bristow, Pedro Figueira, Pedro Santos, Alexandre Cabral, D. Mégevand, Matteo Viel, Francesco Pepe, João Coelho, Roberto Cirami, F. Tenegi, A. Fragoso, C. Allende Prieto, Danuta Sosnowska, Carlos Martins, Antonio Cesar de Oliveira, M. A. Monteiro, Reinhold J. Dorn, J. I. González Hernández, S. G. Sousa, Stefano Cristiani, Manuel Abreu, Ennio Poretti, M. Mannetta, and Paolo Conconi

Subjects
Physics, Espresso, Optics, Space and Planetary Science, business.industry, Astronomy, Astronomy and Astrophysics, Instrumentation (computer programming), business, Spectrograph, Exoplanet
Abstract

Departamento deFsica eAstronomia, Faculdade Cincias, Universidade do Porto,Rua das Estrelas, 4150-762PortugalReceived2013 Aug 29, accepted 2013 Nov1Published online 2014 Jan 15Keywords instrumentation: spectrographs –plantary systems –techniques: spectroscopicThe acronym ESPRESSO stems for Echelle SPectrograph for RockyExoplanets and Stable Spectroscopic Observations;this instrument will be the next VLThigh resolution spectrograph. The spectrograph will be installed at the Combined-CoudeL´ aboratory of the VLTand linked to the four 8.2mUnit Telescopes (UT) through four optical Coudet´ rains.ESPRESSO will combine efficiencyand extreme spectroscopic precision. ESPRESSO is foreseen to achieve again oftwomagnitudes with respect to its predecessor HARPS, and to improve the instrumental radial-velocity precision to reachthe 10 cms

Published
2014

11. SIOUX project: a simultaneous multiband camera for exoplanet atmospheres studies

Author

Paolo Giacobbe, Daniela Tresoldi, Alberto Riva, Riccardo Claudi, P. Calcidese, Aldo S. Bonomo, Jean Marc Christille, Alessandro Sozzetti, Emilio Molinari, F. Borsa, Mario Damasso, Deborah Busonero, Emanuele Pace, and Giorgio Toso

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Solar System, business.industry, Near-infrared spectroscopy, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, 01 natural sciences, Exoplanet, law.invention, 010309 optics, Telescope, Photometry (astronomy), Optics, Planet, law, 0103 physical sciences, Dichroic filter, Chromatic scale, Astrophysics::Earth and Planetary Astrophysics, business, Astrophysics - Instrumentation and Methods for Astrophysics, 010303 astronomy & astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics - Earth and Planetary Astrophysics
Abstract

The exoplanet revolution is well underway. The last decade has seen order-of-magnitude increases in the number of known planets beyond the Solar system. Detailed characterization of exoplanetary atmospheres provide the best means for distinguishing the makeup of their outer layers, and the only hope for understanding the interplay between initial composition chemistry, temperature-pressure atmospheric profiles, dynamics and circulation. While pioneering work on the observational side has produced the first important detections of atmospheric molecules for the class of transiting exoplanets, important limitations are still present due to the lack of systematic, repeated measurements with optimized instrumentation at both visible (VIS) and near-infrared (NIR) wavelengths. It is thus of fundamental importance to explore quantitatively possible avenues for improvements. In this paper we report initial results of a feasibility study for the prototype of a versatile multi-band imaging system for very high-precision differential photometry that exploits the choice of specifically selected narrow-band filters and novel ideas for the execution of simultaneous VIS and NIR measurements. Starting from the fundamental system requirements driven by the science case at hand, we describe a set of three opto-mechanical solutions for the instrument prototype: 1) a radial distribution of the optical flux using dichroic filters for the wavelength separation and narrow-band filters or liquid crystal filters for the observations; 2) a tree distribution of the optical flux (implying 2 separate foci), with the same technique used for the beam separation and filtering; 3) an 'exotic' solution consisting of the study of a complete optical system (i.e. a brand new telescope) that exploits the chromatic errors of a reflecting surface for directing the different wavelengths at different foci. In this paper we present the first results of the study phase for the three solutions, as well as the results of two laboratory prototypes (related to the first two options), that simulate the most critical aspects of the future instrument.

Published
2016

12. The absolute calibration strategy of the ASTRI SST-2M telescope proposed for the Cherenkov Telescope Array and its external ground-based illumination system

Author

Federico Russo, M. Fiorini, S. Incorvaia, Giorgio Toso, Giuseppe Sottile, Benedetto Biondo, G. La Rosa, Osvaldo Catalano, A. Segreto, M. C. Maccarone, C. Gargano, and ITA

Subjects
Physics, Pixel, 010308 nuclear & particles physics, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Night sky, Astrophysics::Instrumentation and Methods for Astrophysics, Cherenkov Telescope Array, 01 natural sciences, Absolute calibration, law.invention, Telescope, Stars, Optics, Observatory, law, 0103 physical sciences, Calibration, business, 010303 astronomy & astrophysics
Abstract

ASTRI is the end-to-end prototype for the CTA small-size class of telescopes in a dual-mirror configuration (SST-2M) proposed by the Italian National Institute of Astrophysics (INAF) in the framework of the Cherenkov Telescope Array. ASTRI SST-2M has been installed at the Serra La Nave Astrophysical Observatory on Mount Etna (Sicily) and its Performance Verification Phase will start in autumn 2016. For the relative pixel calibration and gain monitoring, the ASTRI SST-2M camera is equipped with an internal illumination device, while an external, portable, illumination system, placed at a few km distance from the telescope, will be used for the absolute end-to-end calibration of the telescope spectral response. Moreover analysis of signals induced in the camera pixels by the night sky background (diffuse emission and reference stars) will be used to monitor the long term evolution of the telescope calibration. We present an overview of the ASTRI SST-2M absolute calibration strategy and the external illuminating device that will be used for its spectral calibration

Published
2016

13. A facility to evaluate the focusing performance of mirrors for Cherenkov Telescopes

Author

G. Farisato, Giorgio Toso, G. Rodeghiero, Giovanni Pareschi, Rodolfo Canestrari, Rossella Spiga, Enrico Giro, Luigi Lessio, Giacomo Bonnoli, and ITA

Subjects
Nuclear and High Energy Physics, Instrumentation, FOS: Physical sciences, 01 natural sciences, Radius of curvature (optics), Scattering, 010309 optics, Optics, 0103 physical sciences, Cherenkov Telescopes, Angular resolution, Large diameter, Instrumentation and Methods for Astrophysics (astro-ph.IM), 010303 astronomy & astrophysics, Focusing, Cherenkov radiation, Open air, Physics, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Mirrors, Active optics, Metrology, Astrophysics - Instrumentation and Methods for Astrophysics, business
Abstract

Cherenkov Telescopes are equipped with optical dishes of large diameter -- in general based on segmented mirrors -- with typical angular resolution of a few arc-minutes. To evaluate the mirror's quality specific metrological systems are required that possibly take into account the environmental conditions in which typically these telescopes operate (in open air without dome protection). For this purpose a new facility for the characterization of mirrors has been developed at the labs of the Osservatorio Astronomico di Brera of the Italian National Institute of Astrophysics. The facility allows the precise measurement of the radius of curvature and the distribution of the concentred light in terms of focused and scattered components and it works in open air. In this paper we describe the facility and report some examples of its measuring capabilities., Comment: 24 pages, 12 figures, 1 table, accepted for publication on September 26th 2015 in Nuclear Instruments and Methods in Physics Research Section A (NIM-A)

Published
2016

14. Photometric transit search for planets around cool stars from the western Italian Alps: a pilot study

Author

P. Giacobbe, Alessandro Sozzetti, Giorgio Toso, Mario G. Lattanzi, Matteo Perdoncin, Richard L. Smart, Mario Damasso, E. Bertolini, P. Calcidese, and A. Bernagozzi

Subjects
Stars, Space and Planetary Science, Planet, Astronomy, Astronomy and Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Transit (astronomy), Astrophysics::Galaxy Astrophysics, Geology
Abstract

[ABRIDGED] In this study, we set out to a) demonstrate the sensitivity to 50% we would have had >80% chances of detecting planets with P 0.5%, corresponding to minimum detectable radii in the range 1.0-2.2 R_E. [ABRIDGED]

Published
2012

15. Auxiliary instruments for the absolute calibration of the ASTRI SST-2M prototype for the Cherenkov Telescope Array

Author

S. Incorvaia, Benedetto Biondo, Francesco Russo, Maria Concetta Maccarone, Osvaldo Catalano, C. Gargano, Giovanni La Rosa, Giuseppe Sottile, Giorgio Toso, M. Fiorini, and Alberto Segreto

Subjects
Physics, Pixel, business.industry, Instrumentation, Astrophysics::Instrumentation and Methods for Astrophysics, Photodetector, Cherenkov Telescope Array, law.invention, Telescope, Optics, law, Calibration, NIST, business, Cherenkov radiation, Remote sensing
Abstract

ASTRI SST-2M is the end-to-end prototype telescope under development by the Italian National Institute of Astrophysics, INAF, proposed for the investigation of the highest-energy gamma-ray band in the framework of the Cherenkov Telescope Array, CTA. The ASTRI SST-2M prototype will be installed in Italy at the INAF station located at Serra La Nave on Mount Etna during Fall 2014. The calibration and scientific validation phase will start soon after. The calibration of a Cherenkov telescope includes several items and tools. The ASTRI SST- 2M camera is equipped with an internal fiber illumination system that allows to perform the relative calibration through monitoring of gain and efficiency variations of each pixel. The absolute calibration of the overall system, including optics, will take advantage from auxiliary instrumentation, namely UVscope and UVSiPM, two small-aperture multi-pixels photon detectors NIST calibrated in lab. During commissioning phase, to measure the main features of ASTRI SST-2M, as its overall spectral response, the main telescope and the auxiliary UVscope-UVSiPM will be illuminated simultaneously by a spatially uniform flux generated by a ground-based light source, named Illuminator, placed at a distance of few hundreds meters. Periodically, during clear nights, the flux profiles of a reference star tracked simultaneously by ASTRI SST-2M and UVscope-UVSiPM will allow to evaluate the total atmospheric attenuation and the absolute calibration constant of the ASTRI SST-2M prototype. In this contribution we describe the auxiliary UVscope-UVSiPM and Illuminator sub-system together with an overview of the end-to-end calibration procedure foreseen for the ASTRI SST-2M telescope prototype.

Published
2014

16. Tests characterization and alignment for the optics of the ASTRI SST-2M telescope prototype for the Cherenkov Telescope Array

Author

G. Rodeghiero, Nicola La Palombara, Enrico Giro, Rodolfo Canestrari, L. M. Perri, Gerardo Capobianco, Giovanni Pareschi, Giacomo Bonnoli, Daniela Fantinel, M. Fiorini, Daniele Gardiol, Antonio Volpicelli, Luigi Lessio, Paolo Conconi, Danilo Selvestrel, Luca Stringhetti, Gino Tosti, Giorgio Toso, and Giorgia Sironi

Subjects
Optical alignment, Astrophysics::High Energy Astrophysical Phenomena, Context (language use), law.invention, Telescope, Optics, Lightweight mirrors, law, Electronic, Wide field aplanatic telescope, ASTRI, Dual mirror telescopes, Optical and Magnetic Materials, Electrical and Electronic Engineering, Cherenkov radiation, Physics, CTA, Gamma-rays, Imaging Atmospheric Cherenkov Telescope, Applied Mathematics, Computer Science Applications1707 Computer Vision and Pattern Recognition, Electronic, Optical and Magnetic Materials, Condensed Matter Physics, business.industry, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Cherenkov Telescope Array, Characterization (materials science), business
Abstract

ASTRI SST-2M is a prototype dual mirror Small Size class of Telescope for the Cherenkov Telescope Array (CTA). Its innovative design based on a Schwarzschild-Couder configuration will permit use Silicon Photo-multipliers as focalplane detectors. The dual mirror configuration is a challenge for the realization of both the primary and secondary. Accurate tests and characterization are mandatory to understand the behavior of the optical configuration, its limits and the possibility of improvements of the full CTA array. Moreover, optical alignment requires solutions and procedures that have not been used so far on Cherenkov telescopes. The aim of paper is to provide an analysis of these topics in the context of the ASTRI SST-2M telescope.

Published
2014

17. ROS2: a multichannel vision for the robotic REM telescope

Author

S. Incorvaia, D. Fugazza, Stefano Covino, Emilio Molinari, Giorgio Toso, Daniela Tresoldi, Francesco D'Alessio, Giuseppe Crimi, Fabrizio Vitali, and Paolo Spanò

Subjects
Physics, business.industry, Detector, First light, Dichroic glass, Visible camera, law.invention, Telescope, Robotic telescope, Optics, Observatory, law, Computer vision, Artificial intelligence, business, Gamma-ray burst
Abstract

During 2013, a new visible camera has been finally installed and tested at the 60cm, robotic REM telescope in the la Silla Observatory. REM is an Italian, fast-reacting telescope initially designed and built for the immediate response to GRB automatic alerts, but since the first light in 2003 its usage has been covering a wider range of astronomical interests. While the IR camera REMIR was reaching the expected limiting magnitudes, the original ROSS visible camera suffered, since the beginning, of a rather poor performance. We set therefore to implement a newer optical camera, leading to the design, tests and integration of ROS2, a dichroic-based four channels imaging camera. The four Sloan-like pass bands are imaged, at the same time, in four quadrants of the CCD, an Andor multilevel Peltier detector. The tests during the science commissioning show an impressive improvement in the limiting magnitudes, reaching two magnitudes fainter than ROSS. Here we show the concept, the tests and the user level product we are now offering at REM.

Published
2014

18. The glass cold-shaping technology for the mirrors of the Cherenkov Telescope Array

Author

Luca Stringhetti, L. M. Perri, Giovanni Pareschi, Giuseppe Crimi, M. Fiorini, Carlo Pelliciari, G. Rodeghiero, Nicola La Palombara, Giorgio Toso, Giorgia Sironi, Rodolfo Canestrari, Enrico Giro, and Giacomo Bonnoli

Subjects
Bending (metalworking), Rigidity (electromagnetism), Optics, Lightweight mirrors, Observatory, Electronic, Wide field aplanatic telescope, ASTRI, Angular resolution, Optical and Magnetic Materials, Electrical and Electronic Engineering, Segmented optics, Image resolution, Cherenkov radiation, Physics, CTA, business.industry, Applied Mathematics, Astrophysics::Instrumentation and Methods for Astrophysics, Computer Science Applications1707 Computer Vision and Pattern Recognition, Active optics, Condensed Matter Physics, Cherenkov Telescope Array, Imaging Atmospheric Cherenkov Telescope, Gamma-rays, Electronic, Optical and Magnetic Materials, business
Abstract

The next generation of imaging atmospheric Cherenkov telescopes will require the production of thousands of mirror segments; an unprecedented amount of optical surface. To accomplish this, the Italian Istituto Nazionale di AstroFisica (INAF) has recently developed a successful technique. This method, called glass cold-shaping, is mainly intended for the manufacturing of mirrors for optical systems with an angular resolution of a few arcminutes, intended to operate in extreme environments. Its principal mechanical features are very low weight and high rigidity of the resulting segments, and its cost and production time turn out to be very competitive as well. The process is based on the shaping of thin glass foils by means of forced bending at room temperature; a sandwich structure is then assembled for retaining the imposed shape. These mirrors are composted of commercial, off-the-shelf materials. In this contribution we give an overview of the latest results achieved in the manufacturing of the pre-production series of mirrors for the Medium Size and Small Size Telescopes of the Cherenkov Telescope Array observatory.

Published
2014

19. The camera of the ASTRI SST-2M prototype for the Cherenkov Telescope Array

Author

M. Capalbi, Giuseppe Romeo, C. Gargano, Salvatore Giarrusso, Giovanni La Rosa, S. Garozzo, Giovanni Bonanno, S. Incorvaia, Francesco Russo, Davide Marano, P. Sangiorgi, Nicola La Palombara, Osvaldo Catalano, Maria Concetta Maccarone, Luca Stringhetti, M. Fiorini, Alessandro Grillo, Sergio Billotta, Giuseppe Sottile, Domenico Impiombato, Alberto Segreto, Vincenzo De Caprio, and Giorgio Toso

Subjects
Physics, Physics::Instrumentation and Detectors, business.industry, Dynamic range, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, Context (language use), Cherenkov Telescope Array, law.invention, Telescope, Optics, Silicon photomultiplier, law, Observatory, Image sensor, business, Cherenkov radiation
Abstract

In the context of the Cherenkov Telescope Array observatory project, the ASTRI SST-2M end-to-end prototype telescope, entirely supported by the Italian National Institute of Astrophysics, is designed to detect cosmic primary gamma ray energies from few TeV up to hundreds of TeV. The ASTRI SST-2M prototype camera is part of the challenging synergy of novel optical design, camera sensors, front-end electronics and telescope structure design. The camera is devoted to imaging and recording the Cherenkov images of air showers induced by primary particles into the Earth’s atmosphere. In order to match the energy range mentioned above, the camera must be able to trigger events within a few tens of nanoseconds with high detection efficiency. This is obtained by combining silicon photo-multiplier sensors and suitable front-end electronics. Due to the characteristic imprint of the Cherenkov image that is a function of the shower core distance, the signal dynamic range of the pixels and consequently of the front-end electronics must span three orders of magnitude (1:1000 photo-electrons). These and many other features of the ASTRI SST-2M prototype camera will be reported in this contribution together with a complete overview of the mechanical and thermodynamic camera system.

Published
2014

20. The ASTRI SST-2M prototype for the Cherenkov Telescope Array: prototype technologies goals and strategies for the future SSTGround-based and Airborne Telescopes V

Author

Stepp, Larry M., Roberto, Gilmozzi, Hall, Helen J., Gianpietro, Marchiori, Andrea, Busatta, Stefano, Giacomel, Ivan, Folla, Marco, Valsecchi, Rodolfo, Canestrari, Giacomo, Bonnoli, Enrico, Cascone, Paolo, Conconi, Mauro, Fiorini, Enrico, Giro, Nicola La Palombara, Giovanni, Pareschi, Luca, Perri, Rodeghiero, Gabriele, Giorgia, Sironi, Luca, Stringhetti, Giorgio, Toso, Gino, Tosti, and Carlo, Pellicciari

Published
2014

21. The ASTRI SST-2M prototype for the Cherenkov Telescope Array: Manufacturing of the structure and the mirrors

Author

Giorgio Toso, Giorgia Sironi, Carlo Pelliciari, Paolo Conconi, G. Rodeghiero, Nicola La Palombara, M. Fiorini, Enrico Cascone, L. M. Perri, Giovanni Pareschi, Rodolfo Canestrari, Enrico Giro, Giuseppe Crimi, Giacomo Bonnoli, Gino Tosti, and Luca Stringhetti

Subjects
segmented optics, Astrophysics::High Energy Astrophysical Phenomena, ASTRI, CTA, gamma-rays, Imaging Atmospheric Cherenkov Telescope, lightweight mirrors, wide field aplanatic telescope, Applied Mathematics, Computer Science Applications1707 Computer Vision and Pattern Recognition, Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials, Condensed Matter Physics, law.invention, Telescope, Optics, Observatory, law, Electronic, Angular resolution, Optical and Magnetic Materials, Aerospace engineering, Image resolution, Cherenkov radiation, Physics, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Cherenkov Telescope Array, Early results, business, Focus (optics)
Abstract

The Cherenkov Telescope Array (CTA) observatory will represent the next generation of Imaging Atmospheric Cherenkov Telescopes. Using a combination of large-, medium-, and small-scale telescopes (LST, MST, SST, respectively), it will explore the Very High Energy domain from a few tens of GeV up to few hundreds of TeV with unprecedented sensitivity, angular resolution and imaging quality. In this framework, the Italian ASTRI program, led by the Italian National Institute of Astrophysics (INAF), is currently developing a scientific and technological SST prototype named ASTRI SST-2M; a 4-meter class telescope, it will adopt an aplanatic, wide-field, double-reflection optical layout in a Schwarzschild-Couder configuration. In this contribution we give an overview of the technological solutions adopted for the ASTRI SST-2M prototype. In particular we focus on the manufacturing of the telescope structure and mirrors. We will also describe early results from tests.

Published
2014

22. The ASTRI SST-2M prototype for the Cherenkov Telescope Array: manufacturing of the structure and the mirrorsGround-based and Airborne Telescopes V

Author

Stepp, Larry M., Roberto, Gilmozzi, Hall, Helen J., Rodolfo, Canestrari, Giacomo, Bonnoli, Enrico, Cascone, Paolo, Conconi, Giuseppe, Crimi, Mauro, Fiorini, Enrico, Giro, Nicola La Palombara, Giovanni, Pareschi, Luca, Perri, Rodeghiero, Gabriele, Giorgia, Sironi, Luca, Stringhetti, Giorgio, Toso, Gino, Tosti, and Carlo, Pelliciari

Published
2014

24. The ASTRI SST-2M prototype for the Cherenkov Telescope Array: Prototype technologies goals and strategies for the future SST

Author

M. Fiorini, Giovanni Pareschi, Enrico Giro, Stefano Giacomel, Giorgio Toso, Giorgia Sironi, L. M. Perri, Gianpietro Marchiori, Marco Valsecchi, Paolo Conconi, G. Rodeghiero, Nicola La Palombara, A. Busatta, Giacomo Bonnoli, Enrico Cascone, Ivan Folla, Carlo Pellicciari, Gino Tosti, Rodolfo Canestrari, and Luca Stringhetti

Subjects
Physics, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Applied Mathematics, Astrophysics::Instrumentation and Methods for Astrophysics, Computer Science Applications1707 Computer Vision and Pattern Recognition, Cherenkov Telescope Array, Condensed Matter Physics, Domain (software engineering), law.invention, Telescope, Optics, Observatory, law, Imaging quality, Production schedule, Systems engineering, Electronic, Electrical and Electronic Engineering, Electronic, Optical and Magnetic Materials, Angular resolution, Optical and Magnetic Materials, business, Cherenkov radiation
Abstract

The Cherenkov Telescope Array (CTA) observatory will represent the next generation of Imaging Atmospheric Cherenkov Telescope. Using a combination of large-, medium-, and small-scale telescopes (LST, MST, SST, respectively), it will explore the Very High Energy domain from a few tens of GeVup to about few hundreds of TeV with unprecedented sensitivity, angular resolution and imaging quality. In this framework, the Italian ASTRI program, led by the Italian National Institute of Astrophysics (INAF) developed a 4-meter class telescope, which will adopt an aplanatic, wide-field, double-reflection optical layout in a Schwarzschild- Couder configuration. Within this program INAF assigned to the consortium between Galbiati Group and EIE Group the construction, assembly and tests activities of the prototype named ASTRI SST-2M. On the basis of the lesson learnt from the prototype, other telescopes will be produced, starting from a re-design phase, in order to optimize performances and the overall costs and production schedule for the CTA-SST telescope. This paper will firstly give an overview of the concept for the SST prototype mount structure. In this contest, the technologies adopted for the design, manufacturing and tests of the entire system will be presented. Moreover, a specific focus on the challenges of the prototype and the strategies associated with it will be provided, in order to outline the near future performance goals for this type of Cherenkov telescopes employed for Gamma ray science.

Published
2014

26. Tests characterization and alignment for the optics of the ASTRI SST-2M telescope prototype for the Cherenkov Telescope ArrayAdvances in Optical and Mechanical Technologies for Telescopes and Instrumentation

Author

Ramón, Navarro, Cunningham, Colin R., Barto, Allison A., Enrico, Giro, Rodeghiero, Gabriele, Giacomo, Bonnoli, Rodolfo, Canestrari, Paolo, Conconi, Mauro, Fiorini, Daniela, Fantinel, Daniele, Gardiol, Luigi, Lessio, Nicola La Palombara, Giovanni, Pareschi, Luca, Perri, Danilo, Selvestrel, Giorgia, Sironi, Luca, Stringhetti, Giorgio, Toso, Gino, Tosti, Antonio, Volpicelli, and Gerardo, Capobianco

Published
2014

27. The ASTRI SST-2M prototype for the next generation of Cherenkov telescopes: structure and mirrors

Author

Giovanni Pareschi, Luigi Lessio, Francesco Martelli, Enrico Cascone, Giorgio Toso, Giorgia Sironi, Giancarlo Parodi, M. Fiorini, Luca Stringhetti, Paolo Conconi, Raffaele Tomelleri, G. Rodeghiero, Nicola La Palombara, Enrico Giro, Pierfrancesco Rossettini, Rodolfo Canestrari, and Gino Tosti

Subjects
Physics, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, Cherenkov Telescope Array, law.invention, Telescope, Optics, law, Observatory, Astrophysics::Solar and Stellar Astrophysics, Angular resolution, business, Reflection (computer graphics), Focus (optics), Image resolution, Cherenkov radiation
Abstract

The next generation of Imaging Atmospheric Cherenkov Telescope will explore the uppermost end of the Very High Energy domain up to about few hundreds of TeV with unprecedented sensitivity, angular resolution and imaging quality. To this end, the Italian National Institute of Astrophysics (INAF) is currently developing a scientific and technological telescope prototype for the implementation of the Cherenkov Telescope Array (CTA) observatory. The Italian ASTRI program foresees the full design, development, installation and calibration of a Small Size 4-meter class Telescope, adopting an aplanatic, wide-field, double-reflection optical layout in a Schwarzschild-Couder configuration. In this paper we discuss about the technological solutions adopted for the telescope and for the mirrors. In particular we focus on the structural and electro-mechanical design of the telescope, now under fabrication. The results on the optical performance derived from mirror prototypes are here described, too.

Published
2013

28. ESPRESSO, an exo-Earths hunter for the VLT

Author

Christopher Broeg, Denis Mégevand, Paolo Di Marcantonio, João Coelho, Matteo Viel, Stefano Cristiani, A. Fragoso, M. Amate, Paul Bristow, Guido Cupani, Paolo Molaro, Roberto Cirami, Hans Dekker, F. Tenegi, Jonay I. González Hernández, Pedro Santos, Gerardo Avila, Christophe Lovis, Ricardo Gomes, Eros Vanzella, M. Mannetta, Valentina D'Odorico, V. Baldini, Alexandre Cabral, Nuno C. Santos, Marco Riva, Danuta Sosnowska, Carlos Martins, I. Hughes, Filippo Maria Zerbi, Paolo Conconi, Reinhold J. Dorn, Manuel Abreu, Sérgio F. Sousa, L. Genolet, Jean-Louis Lizon, Igor Coretti, Maria Rosa Zapatero Osorio, Ennio Poretti, M. Affolter, Matteo Aliverti, Vincenzo De Caprio, Jose Luis Rasilla, Florian Kerber, Rafael Rebolo, M. A. Monteiro, S. Galeotta, Charles Maire, Giorgio Toso, Bernard Delabre, Olaf Iwert, Marco Landoni, Pedro Figueira, Francesco Pepe, Samuel Santana Tschudi, and Antonio Gouveia Oliveira

Subjects
Physics, Design review (U.S. government), Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 7. Clean energy, 01 natural sciences, Exoplanet, law.invention, 010309 optics, Telescope, Espresso, Observatory, law, 0103 physical sciences, Magnitude (astronomy), 0210 nano-technology, Spectrograph, Circumstellar habitable zone
Abstract

ESPRESSO is the next European exoplanets hunter. It will combine the efficiency of modern echelle spectrograph with extreme radial-velocity precision. It will be installed at Paranal's VLT in order to achieve two magnitudes gain with respect to its predecessor HARPS, and the instrumental radial-velocity precision will be improved to reach 10 cm/s level. We have constituted a Consortium of astronomical research institutes to fund, design and build ESPRESSO on behalf of and in collaboration with ESO, the European Southern Observatory. The project has passed the final design review in May 2013. The spectrograph will be installed at the Combined Coude Laboratory of the VLT, it will be linked to the four 8.2 meters Unit Telescopes through four optical "Coude trains" and will be operated either with a single telescope or with up to four UTs, enabling an additional 1.5 magnitude gain. Thanks to its characteristics and ability of combining incoherently the light of 4 large telescopes, ESPRESSO will offer new possibilities in many fields of astronomy. Our main scientific objectives are, however, the search and characterization of rocky exoplanets in the habitable zone of quiet, near-by G to M-dwarfs, and the analysis of the variability of fundamental physical constants. In this paper, we will present the scientific objectives, the capabilities of ESPRESSO, the technical solutions for the system and its subsystems, enlightening the main differences between ESPRESSO and its predecessors. The project aspects of this facility are also described, from the consortium and partnership structure to the planning phases and milestones.

Published
2013

29. Shaping of thin glass foils for the fabrication of mirrors with pronounced asphericity

Author

Rodolfo Canestrari, Giorgio Toso, Giorgia Sironi, and G. Pareschi

Subjects
Fabrication, Materials science, Bending (metalworking), business.industry, Active optics, Rigidity (psychology), IACT, law.invention, Telescope, Optics, law, Angular resolution, business, Cherenkov radiation
Abstract

We present a method developed by INAF (Italian National Institute for Astrophysics) for the manufacturing of mirrors by using commercial of-the-shelf materials. It is based on the shaping of thin glass foils by means of forced bending; then a sandwich structure is assembled for retaining the imposed shape. These mirrors are intended for optical systems with few arcmin in angular resolution working in extreme environments, being their principal mechanical features the very low weight and high rigidity. The cost and production time also turns to be very competitive. In this paper we report the main achievements of the R&D performed. We recall the investigation of the theoretical limits with finite element analyses and the process implementation. Finally, the case of the mirrors for IACT (Imaging Atmospheric Cherenkov Telescope) is presented with respect to the ASTRI project (Astrofisica con Specchi a Tecnologia Replicante Italiana).

Published
2013

30. Worthwhile optical method for free-form mirrors qualification

Author

Rodolfo Canestrari, G. Pareschi, Giorgio Toso, and Giorgia Sironi

Subjects
Physics, business.industry, Reflecting telescope, Astrophysics::Instrumentation and Methods for Astrophysics, Curved mirror, Active optics, Context (language use), Cherenkov Telescope Array, law.invention, Telescope, Primary mirror, Optics, law, Focus (optics), business
Abstract

We present an optical method for free-form mirrors qualification developed by the Italian National Institute for Astrophysics (INAF) in the context of the ASTRI (Astrofisica con Specchi a Tecnologia Replicante Italiana) Project which includes, among its items, the design, development and installation of a dual-mirror telescope prototype for the Cherenkov Telescope Array (CTA) observatory. The primary mirror panels of the telescope prototype are free-form concave mirrors with few microns accuracy required on the shape error. The developed technique is based on the synergy between a Ronchi-like optical test performed on the reflecting surface and the image, obtained by means of the TraceIT ray-tracing proprietary code, a perfect optics should generate in the same configuration. This deflectometry test allows the reconstruction of the slope error map that the TraceIT code can process to evaluate the measured mirror optical performance at the telescope focus. The advantages of the proposed method is that it substitutes the use of 3D coordinates measuring machine reducing production time and costs and offering the possibility to evaluate on-site the mirror image quality at the focus. In this paper we report the measuring concept and compare the obtained results to the similar ones obtained processing the shape error acquired by means of a 3D coordinates measuring machine.

Published
2013

31. The ASTRI SST-2M prototype for the next generation of Cherenkov telescopes: structure and mirrorsOptics for EUV, X-Ray, and Gamma-Ray Astronomy VI

Author

O'Dell, Stephen L., Rodolfo, Canestrari, Enrico, Cascone, Paolo, Conconi, Mauro, Fiorini, Enrico, Giro, Nicola La Palombara, Luigi, Lessio, Giovanni, Pareschi, Rodeghiero, Gabriele, Giorgia, Sironi, Luca, Stringhetti, Giorgio, Toso, Gino, Tosti, Francesco, Martelli, Giancarlo, Parodi, Pierfrancesco, Rossettini, and Raffaele, Tomelleri

Published
2013

32. ESPRESSO: the ultimate rocky exoplanets hunter for the VLT

Author

Maria Rosa Zapatero Osorio, Pedro Figueira, Ricardo Gomes, Giorgio Toso, Christopher Broeg, Denis Mégevand, Marco Landoni, Paul Bristow, Danuta Sosnowska, Carlos Martins, Bernard Delabre, Nuno C. Santos, Marco Riva, I. Hughes, Paolo Spanò, Charles Maire, André Moitinho, Alexandre Cabral, Stefano Cristiani, Pedro Carvas, Igor Coretti, M. Comari, Paolo Molaro, Guido Cupani, Olaf Iwert, L. Genolet, Valentina D'Odorico, Filippo Maria Zerbi, Francesco Pepe, Samuel Santana Tschudi, Christophe Lovis, Jean-Louis Lizon, A. Fragoso, Jonay I. González Hernández, Jose Luis Rasilla, Gerardo Avila, M. A. Monteiro, Jorge Lima, M. Affolter, Florian Kerber, Rafael Rebolo, Sérgio F. Sousa, M. Mannetta, Paolo Conconi, Matteo Viel, Hans Dekker, Paolo Di Marcantonio, Eros Vanzella, M. Amate, Manuel Abreu, Paolo Santin, F. Tenegi, M. Fleury, Vincenzo De Caprio, Roberto Cirami, V. Baldini, and João Coelho

Subjects
Physics, Astronomy, High resolution, 7. Clean energy, 01 natural sciences, Exoplanet, law.invention, 010309 optics, Telescope, Espresso, law, Observatory, 0103 physical sciences, Systems engineering, 010303 astronomy & astrophysics, Circumstellar habitable zone, Spectrograph
Abstract

ESPRESSO, the VLT rocky exoplanets hunter, will combine the efficiency of modern echelle spectrograph with extreme radial-velocity precision. It will be installed at Paranal on ESO's VLT in order to achieve a gain of two magnitudes with respect to its predecessor HARPS, and the instrumental radial-velocity precision will be improved to reach 10 cm/s level. We have constituted a Consortium of astronomical research institutes to fund, design and build ESPRESSO on behalf of and in collaboration with ESO, the European Southern Observatory. The project has passed the preliminary design review in November 2011. The spectrograph will be installed at the so-called "Combined Coude Laboratory" of the VLT, it will be linked to the four 8.2 meters Unit Telescopes (UT) through four optical "Coude trains" and will be operated either with a single telescope or with up to four UTs. In exchange of the major financial and human effort the building Consortium will be awarded with guaranteed observing time (GTO), which will be invested in a common scientific program. Thanks to its characteristics and the ability of combining incoherently the light of 4 large telescopes, ESPRESSO will offer new possibilities in many fields of astronomy. Our main scientific objectives are, however, the search and characterization of rocky exoplanets in the habitable zone of quiet, near-by G to M-dwarfs, and the analysis of the variability of fundamental physical constants. In this paper, we present the ambitious scientific objectives, the capabilities of ESPRESSO, the technical solutions for the system and its subsystems, enlightening the main differences between ESPRESSO and its predecessors. The project aspects of this facility are also described, from the consortium and partnership structure to the planning phases and milestones.

Published
2012

33. The optical tests for the E-ELT adaptive mirror demonstration prototype

Author

Marco Riva, Armando Riccardi, Roberto Biasi, Matteo Tintori, Gilles Marque, Daniela Tresoldi, Emilio Molinari, Daniele Gallieni, Giorgio Toso, Gerald Angherer, Paolo Spanò, Mario Andrighettoni, and R. Mazzoleni

Subjects
Physics, business.industry, Measure (physics), Voice coil, law.invention, Metrology, Telescope, Set (abstract data type), Interferometry, Optics, law, Extremely Large Telescope, Adaptive optics, business, Computer hardware
Abstract

The challenge of building extremely large telescope pushes forward the parallel ability to measure and test optical components of large sizes. Here we present the optical bench setup for the Demonstration Prototype (DP) of the voice coil controlled adaptive mirror M4AU of the E-ELT. A set of three devices has been chosen and used for the tests, whose results are also shown. The performance demonstrated that this is a viable and trusted technology and the DP tests were highly representative of the whole procedure that could be applied to the real, full size unit.

Published
2010

34. Voice-coil technology for the E-ELT M4 Adaptive Unit

Author

Marco Mantegazza, Matteo Tintori, F. Koch, Marco Riva, Armando Riccardi, Norbert Hubin, E. Vernet, Lieselotte Jochum, Daniele Gallieni, M. Andrigettoni, Daniele Veronese, Daniela Tresoldi, Roberto Biasi, Paolo Spanò, Marco Morandini, R. Mazzoleni, P. Y. Madec, Paolo Mantegazza, M. Acerboni, M. Dimmler, Gerald Angerer, Alberto Merler, Giorgio Toso, Emilio Molinari, Enzo Anaclerio, Lorenzo Crimella, Jean-Louis Carel, Gilles Marque, and Mauro Manetti

Subjects
Controllability, Engineering, business.industry, Capacitive sensing, Frame (networking), Electronic engineering, Maintainability, Voice coil, Modular design, Actuator, business, Deformable mirror
Abstract

We present our design of the E-ELT M4 Adaptive Unit based on voice-coil driven deformable mirror technology. This technology was developed by INAF-Arcetri, Microgate and ADS team in the past 15 years and it has been adopted by a number of large ground based telescopes as the MMT, LBT, Magellan and lastly the VLT in the frame of the Adaptive Telescope Facility project. Our design is based on contactless force actuators made by permanent magnets glued on the back of the deformable mirror and coils mounted on a stiff reference structure. We use capacitive sensors to close a position loop co-located with each actuator. Dedicated high performance parallel processors are used to implement the local de-centralized control at actuator level and a centralized feed-forward computation of all the actuators forces. This allowed achieving in our previous systems dynamic performances well in line with the requirements of the M4 Adaptive Unit (M4AU) case. The actuator density of our design is in the order of 30-mm spacing for a figure of about 6000 actuators on the M4AU and it allows fulfilling the fitting error and corrections requirements of the E-ELT high order DM. Moreover, our contact-less technology makes the Deformable Mirror tolerant to up 5% actuators failures without spoiling system capability to reach its specified performances, besides allowing large mechanical tolerances between the reference structure and the deformable mirror. Finally, we present the Demonstration Prototype we are building in the frame of the M4AU Phase B study to measure the optical dynamical performances predicted by our design. Such a prototype will be fully representative of the M4AU features, in particular it will address the controllability of two adjacent segments of the 2-mm thick mirror and implement the actuators "brick" modular concept that has been adopted to dramatically improve the maintainability of the final unit.

Published
2010

35. Cryogenic refractometer for high accuracy measurements of the refractive index of materials

Author

Giorgio Pariani, Paolo Spanò, Andrea Bianco, and Giorgio Toso

Subjects
Optics, Materials science, Refractometer, business.industry, Measure (physics), Thermal stability, Prism, Monochromatic color, business, Sample (graphics), Refractive index, Refraction
Abstract

A prototype for a compact and relatively simple system capable to measure the refraction index of glasses, between 0.4 to 1.7 micron, at room and cryogenic temperatures (T=100-300 K), with an absolute precision of few parts of 100'000 has been developed at INAF facilities in Merate. It is based onto the measurement of the deviation angle of monochromatic light passing through a prism sample placed in the cryogenic chamber. The precision of the measurements depends on many factors, in particular the angle measurement and the thermal stability. Different subsystems have been studied to keep all these parameters under accurate control. One of the main issues has been the trade-off between the simplicity of the set-up and the precision of the refractive index measurement.

Published
2009

36. New fast synthesis route for symmetric and asymmetric phenyl-substituted photochromic dithienylethenes bearing functional groups such as alcohols, carboxylic acids, or amines

Author

Giovanni Dassa, Andrea Bianco, Chiara Bertarelli, Steephan Hermes, Giorgio Toso, and Giuseppe Zerbi

Subjects
chemistry.chemical_compound, Photochromism, Bearing (mechanical), Suzuki reaction, chemistry, Pinacol, law, Organic Chemistry, Drug Discovery, Organic chemistry, Biochemistry, law.invention
Abstract

This Letter describes an efficient three-step synthesis route of symmetric and asymmetric phenyl-substituted photochromic 1,2-dithienylethenes bearing unprotected functional groups (i.e., alcohols, carboxylic acids or amines). These products can be easily obtained by typical Suzuki cross-coupling between photochromic dichlorides and commercial available boronic acids or pinacol esters.

Published
2009

37. Realization of Photochromic-Polymeric Films for Optical Applications

Author

Giovanni Dassa, Chiara Bertarelli, Giuseppe Zerbi, Giorgio Toso, and Andrea Bianco

Subjects
chemistry.chemical_classification, Materials science, business.industry, Holography, Substrate (electronics), Polymer, Diffraction efficiency, law.invention, Photochromism, chemistry.chemical_compound, Optics, chemistry, Diarylethene, law, Phase (matter), Optoelectronics, business, Refractive index
Abstract

The peculiar property of reversible change of the refractive index (Δn) of photochromic systems, is suitably exploited to realize volume phase holographic gratings (VPHGs), which are finding applications in optics and in spectroscopic instrumentations. A large modulation of the refractive index between the two photochromic states and a relatively thick layer of good optical quality are the fundamental requirements for the materials to achieve a good diffraction efficiency. A backbone diarylethene polymer which combines good processing properties with a proper photochromic sensitivity is synthesised and studied. The large Δn between the two isomer states (i.e. Δn=0.03 measured at 1500 nm and the value is even higher at shorter wavelengths, approaching 0.1 near the visible) and the high transparency in the near infrared range make it a promising substrate for the realization of efficient VPHGs. First prototype of VPHGs based on photochromic diarylethene polymer films has been written by transferring the pattern of lines from a master and its functionality is shown.

Published
2008

38. New developments in photochromic materials showing large change in the refractive index

Author

Giuseppe Zerbi, Giovanni Dassa, Mario Martinelli, Chiara Bertarelli, Silvia Maria Pietralunga, M. Lanata, Andrea Bianco, and Giorgio Toso

Subjects
Materials science, business.industry, Holography, law.invention, Photochromism, Wavelength, chemistry.chemical_compound, Optics, Diarylethene, chemistry, law, Ellipsometry, Phase (matter), Thin film, business, Refractive index
Abstract

Organic photochromic materials have been studied as active materials in optical devices since they show a reversible change of color in the visible region and appreciable reversible changes of the refractive index (' n) in the NIR. The latter peculiar property can be suitably exploited for the realization of holographic optical elements (HOEs) and in particular volume phase holographic gratings (VPHGs). Photochromic polyester based on diarylethene alcohol was synthesized and characterized both in solution and in thin film. The optical properties of the films were good enough for making optical devices and the modulation of the refractive index (measured by spectral ellipsometry) was large at 1.5 micron and it became even larger at shorter wavelength where the material is still transparent. Such photochromic material is a good candidate for making rewritable efficient HOEs. Keywords: photochromism, refraction index, diarylethenes, VPHG, ellipsometry 1. INTRODUCTION Materials showing a change in refractive index have attracted attention in different technological fields to develop holographic optical elements

Published
2008

39. Rewritable VPHGs based on photochromic materials

Author

Giovanni Dassa, Philippe Lemaire, Bertarelli Chiara, Emilio Molinari, Filippo Maria Zerbi, Marc Georges, Andrea Bianco, Giorgio Toso, and Giuseppe Zerbi

Subjects
chemistry.chemical_classification, Materials science, business.industry, Holography, Polymer, Laser, Characterization (materials science), law.invention, Photochromism, chemistry.chemical_compound, Optics, chemistry, Diarylethene, law, Phase (matter), business, Refractive index
Abstract

Volume phase holographic gratings (VPHGs) are becoming an interesting alternative to the ruled gratings in modern astronomical instrumentation. Photochromic materials with thermal stability are good candidates for the development of holographic optical elements and in par ticular for VPHGs. VPHGs ba sed on photochromic materials can be written and erased many times without the degradation of the material; moreover the material does not need any developing process after the exposure, making the writing process very simple. We have already studied photochromic materials for this aim in the framework of the JRA6 (Opticon Project, FP6) and we found that large modulations of the refractive index can be achieved using diarylethene polymers. Going from the materials characterization to technology, substrates with larger thickness and good optical properties are required. Herein we present the development of new technique to tailor the thickness of the photochromic films in two ranges: 5 – 30 micron and 700 – 1000 micron. The former are suitable for the development of broadband VPHGs, whereas the latter are suitable for narrow band t unable filters application. Details on the optical properties of the films are reported. Finally, a holographic set-up based on an Ar+ laser has been optimized in order to write the gratings. Keywords: VPHG, refraction index, photochromic materials, holographic materials

Published
2008

40. Design and development of a cryogenic high-accuracy refractometer

Author

Paolo Spanò, Alessandro Battocchio, Giorgio Toso, Andrea Bianco, and Marco Canetti

Subjects
Optics, Materials science, Refractometer, Physics::Instrumentation and Detectors, business.industry, Measure (physics), Minimum deviation, Development (differential geometry), Monochromatic color, Prism, business, Sample (graphics), Refractive index
Abstract

We present the development of a demonstration prototype for a compact and relatively cheap system capable to measure the refraction index of glasses, between 0.4 to 1.7 micron, at room and cryogenic temperatures (T=100-300 K), with an absolute precision of few parts of 10 -5 . The basic concept is the measurement of the deviation angle of monochromatic light passing through a prism sample placed in the cryogenic chamber. The precision of the measurements depends on many factors, in particular the angle measurement and the thermal stability, therefore the system can control its alignment. The main issue is the trade-off between the simplicity of the set-up and the precision of the refractive index measurement.

Published
2008

41. VPHGs tunes

Author

Emilio Molinari, Andrea Bianco, Giorgio Toso, and Filippo M. Zerbi

Published
2008

42. The field stabilization and adaptive optics mirrors for the European Extremaly Large Telescope

Author

Riccardo Muradore, Norbert Hubin, Marco Mantegazza, Jean-Jacques Roland, Mario Andrighettoni, Daniele Gallieni, Pierre Morin, Matteo Tintori, E. Vernet, Emilio Molinari, B. Crépy, Jean-Christophe Sinquin, Daniela Tresoldi, Marco Riva, Paolo La Penna, Giuseppe Crimi, Joan Manel Casalta, Armando Riccardi, Gerald Angerer, Raphaël Cousty, Ivar Kjelberg, Paolo Spanò, Lieselotte Jochum, Frédéric Locre, Jean-Louis Carel, Roberto Biasi, Giorgio Toso, Jean-Marie Lurçon, Eric Gabriel, Eric Ruch, and Gilles Marque

Subjects
field stabilization, Physics, Field (physics), business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Active optics, Deformable mirror, adaptive optics, Term (time), law.invention, Telescope, Optics, law, extremely large telescope, specifications, Magnitude (astronomy), Extremely Large Telescope, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Adaptive optics, business, Astrophysics::Galaxy Astrophysics
Abstract

A 42 meters telescope does require adaptive optics to provide few milli arcseconds resolution images. In the current design of the E-ELT, M4 provides adaptive correction while M5 is the field stabilization mirror. Both mirrors have an essential role in the E-ELT telescope strategy since they do not only correct for atmospheric turbulence but have also to cancel part of telescope wind shaking and static aberrations. Both mirrors specifications have been defined to avoid requesting over constrained requirements in term of stroke, speed and guide stars magnitude. Technical specifications and technological issues are discussed in this article. Critical aspects and roadmap to assess the feasibility of such mirrors are outlined.

Published
2008

43. Radetzky: a new, large grazing incidence interferometer for large plane surface testing

Author

Emilio Molinari, Daniela Tresoldi, Giorgio Toso, Roberto Biasi, Paolo Spanò, Jean-Louis Carel, and Daniele Gallieni

Subjects
Wavefront, Image stitching, Interferometry, Optics, Segmented mirror, Computer science, business.industry, Piston (optics), Plane mirror, Adaptive optics, business, Beam (structure), Metrology
Abstract

The ability to manufacture larger adaptive optics mirror rely also on the availability of metrology tools suitable for the purpose to validate the mirrors. In the framework of the ELT M4 adaptive, 2.5 m diameter, plane mirror we devised a series of tools able to certify that the plane wavefront is achieved and kept in place. A stitching series of small beams is conjugated with a whole image of the mirror thanks to a big, grazing incidence interferometric cavity. The set is completed by a novel piston sensing device which collate different segments of the (possibly) multiple mirror. We describe here the foreseen procedure and the status of the prototype realization.

Published
2008

44. AGAR-AGAR: a high-efficiency narrow-band imager for ELTs

Author

Filippo Maria Zerbi, Giorgio Toso, Riccardo Felletti, Alberto Riva, Daniela Tresoldi, Paolo Conconi, Andrea Bianco, Matteo Tintori, Marco Riva, Giuseppe Crimi, Emilio Molinari, Vincenzo De Caprio, and Paolo Spanò

Subjects
Computer science, business.industry, Holography, Field of view, Spectral bands, Dichroic glass, law.invention, Telescope, Optics, Cardinal point, law, Dichroic filter, business, Adaptive optics
Abstract

The thinking about possible instruments for the future ELTs has just started and the current phase allows to pursue non-traditional solutions. Following the guidelines of the Science Case for an ELT 1,2 our team searched for possible intersections with innovative technologies we currently deal with in our research. We found that Volume Phase Holographic Gratings and advanced dichroics could be suited to design a non-traditional narrow band imager. We propose in this paper a comparative analysis of a VPHG based and a dichroic based configurations for the imager. Keywords: Narrow band imager, non conventional diffraction, dichroic mirror, infrared spectroscopy. 1. INTRODUCTION The giant new collecting area of future big telescopes leads to new concepts for the astronomical instrumentation in a natural way. These areas, hundred times bigger than the actual ones of the 10m class telescopes, will be characterized by meter-sized focal planes and pupils. The extension of these planes is overfilled of instrumentation, and therefore the “field of view” or the “pupil” should be split up. In the first case, it should be possible to make the same measure on different objects, while splitting up the pupil the same object can be investigated with different measurements. Considering the focal plane fragmentation, the project we’re going to introduce (called “AGAR-AGAR project”) is conceived for the limit case of a 100m F/6 telescope. Shortly we are situated between the first one and the second micron of the IR infrared band and, the measure that AGAR proposes, can be interpreted as borderline case of a 3D low resolution spectroscopy (about RS50) or of multi Imaging and narrow band, around 20nm. Agar is founded on a repeated use of dichroics multilayer mirror which return a series of channels every characterized by own spectral band of work. Every channel, provided of own camera, reform the image of the field in the short band filtered by dichroics. The total result are 64 images to cover in full the interval 1-2.2 microns, on a field of view equal to 10 arcseconds. The results that we go to expose want to relate the simplicity of the idea of the tool, through its conceptual scheme, its optical characterization, showing the beyond expectation reached efficiency.

Published
2006

45. New developments in photochromic materials for volume phase holographic gratings

Author

Giorgio Toso, Paolo Conconi, Clara Quaglia, Giuseppe Zerbi, Chiara Bertarelli, Andrea Bianco, Emilio Molinari, and Filippo Maria Zerbi

Subjects
Diffraction, Materials science, business.industry, Holography, Grating, Laser, law.invention, Photochromism, chemistry.chemical_compound, Optics, Optical microscope, Diarylethene, chemistry, law, Optoelectronics, business, Refractive index
Abstract

Volume phase holographic gratings (VPHGs) are becoming widespread dispersing elements in the modern spectrograph. Different materials can be used to make such gratings. We developed photochromic polymers based on a diarylethene unit that make VPHG suitable for observations in the near infrared region (1 - 2 μm) where the materials are highly transparent and show large modulation of the refractive index. This modulation was measured on films of different polymers by using spectral reflectance obtaining values of the order of 10 -2 , These values are large enough to make efficient VPHGs if the thickness of the films are about 25 μm. The sensitivity of the photochromic polyesters was measured at 514 and 633 nm. Prototype of photochromic VPHGs were made by transferring a 600 l/mm pattern of a Ronchi ruling glass slide on a photochromic polyester film (4 μm thick) by using a green laser (543 nm, 30 mW). The grating was successfully transferred as shown by optical microscopy and by the diffraction pattern induced by a white light.

Published
2006

46. A fiber-fed VPHG-based high-resolution spectrograph for moderate-aperture robotic telescopes

Author

Filippo Maria Zerbi, Paolo Conconi, R. Mazzoleni, Giorgio Toso, and Emilio Molinari

Subjects
Physics, Holographic grating, business.industry, Aperture, Astrophysics::Instrumentation and Methods for Astrophysics, law.invention, Telescope, Optics, Robotic telescope, law, Observatory, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Spectral resolution, business, Spectrograph, Central element, Remote sensing
Abstract

The use of high diffraction efficiency Volume Phase Holographic grating as central element in a spectrograph allows to consistently increase the instrumental throughput. Moreover the geometry they use allow them to be located in simplified optical designs and their manufacturing characteristics make them ideal also for the high resolution (R > 20,000) domain. VPHG are the perfect solution for high resolution spectrograph coupled with moderate collecting areas such as those of robotic telescopes nowadays distributed worldwide. We present in this paper the spectrograph, currently under construction, that will equip the REM telescope at la Silla Observatory, Chile.

Published
2004

47. ESPRESSO: the radial velocity machine for the VLT

Author

Marco Landoni, Nuno C. Santos, Marco Riva, I. Hughes, Matteo Viel, Christopher Broeg, Pedro Figueira, Denis Mégevand, Igor Coretti, Francesco Pepe, Paolo Di Marcantonio, Paolo Molaro, Reinhold J. Dorn, Florian Kerber, Gerardo Avila, Manuel Abreu, Maria Rosa Zapatero Osorio, T. Bandy, M. Moschetti, Valentina D'Odorico, A. Fragoso, Jean-Louis Lizon, Alexandre Cabral, Samuel Santana Tschudi, M. Mannetta, Hans Dekker, Antonio Gouveia Oliveira, Sérgio F. Sousa, Ricardo Gomes, Jonay I. González Hernández, Paolo Conconi, Charles Maire, F. Tenegi, Eros Vanzella, Pedro Santos, M. Amate, Christophe Lovis, Stefano Cristiani, Filippo Maria Zerbi, Ennio Poretti, Giorgio Toso, Matteo Aliverti, Vincenzo De Caprio, Bernard Delabre, Roberto Cirami, Paul Bristow, Olaf Iwert, L. Genolet, Jose Luis Rasilla, Rafael López, M. A. Monteiro, Guido Cupani, João Coelho, V. Baldini, Danuta Sosnowska, Carlos Martins, Carlos Allende, and S. Galeotta

Subjects
Physics, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, 7. Clean energy, Exoplanet, law.invention, Telescope, Radial velocity, Espresso, Observatory, law, Magnitude (astronomy), Systems engineering, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Circumstellar habitable zone, Spectrograph, Astrophysics::Galaxy Astrophysics
Abstract

ESPRESSO is the next generation ground based European exoplanets hunter. It will combine the efficiency of modern echelle spectrograph with extreme radial-velocity and spectroscopic precision. It will be installed at Paranal's VLT in order to achieve two magnitudes gain with respect to its predecessor HARPS, and the instrumental radial-velocity precision will be improved to reach 10 cm/s level. We have constituted a Consortium of astronomical research institutes to fund, design and build ESPRESSO on behalf of and in collaboration with ESO, the European Southern Observatory. The spectrograph will be installed at the Combined Coude Laboratory (CCL) of the VLT, it will be linked to the four 8.2 meters Unit Telescopes through four optical "Coude trains" and will be operated either with a single telescope or with up to four UTs, enabling an additional 1.5 magnitude gain. Thanks to its characteristics and ability of combining incoherently the light of 4 large telescopes, ESPRESSO will offer new possibilities in many fields of astronomy. Our main scientific objectives are, however, the search and characterization of rocky exoplanets in the habitable zone of quiet, near-by G to M-dwarfs, and the analysis of the variability of fundamental physical constants. The project is, for most of its workpackages, in the procurement or development phases, and the CCL infrastructure is presently under adaptation work. In this paper, we present the scientific objectives, the capabilities of ESPRESSO, the technical solutions for the system and its subsystems. The project aspects of this facility are also described, from the consortium and partnership structure to the planning phases and milestones.

Published
2014
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