Your search keyword '"Commichau, S"' showing total 7 results

1. Characterization of 13 and 30 μm thick hydrogenated amorphous silicon diodes deposited over CMOS integrated circuits for particle detection application

Author

Despeisse, M., Anelli, G., Commichau, S., Dissertori, G., Garrigos, A., Jarron, P., Miazza, C., Moraes, D., Shah, A., Wyrsch, N., and Viertel, G.

Subjects

*HYDROGENATION, *SILICON diodes, *THIN films, *DIODES

Abstract

We present the experimental results obtained with a novel monolithic silicon pixel detector which consists in depositing a n–i–p hydrogenated amorphous silicon (a-Si:H) diode straight above the readout ASIC (this technology is called Thin Film on ASIC, TFA). The characterization has been performed on 13 and 30 μm thick a-Si:H films deposited on top of an ASIC containing a linear array of high-speed low-noise transimpedance amplifiers designed in a 0.25 μm CMOS technology. Experimental results presented have been obtained with a 600 nm pulsed laser. The results of charge collection efficiency and charge collection speed of these structures are discussed. [Copyright &y& Elsevier]

Published

2004

2. Long-term monitoring of bright blazars with a dedicated Cherenkov telescope.

Author

Bretz, T., Backes, M., Braun, I., Neise, D., Rhode, W., Mannheim, K., Pauss, F., Becker, J. K., Biland, A., Britvich, I., Commichau, S. C., Dorner, D., Hadasch, D., Hildebrand, D., Horisberger, U., Kranich, D., Lorenz, E., Lustermann, W., Pohl, M., and Ribordy, M.

Subjects

*CHERENKOV radiation, *TELESCOPES, *BL Lacertae objects, *ASTRONOMY, *BINARY number system, *SUPERMASSIVE black holes

Abstract

Blazar observations in VHE Gamma-rays show intensity variations on time scales of minutes to years, most frequently with variability times of about one day. They could be caused by the interaction of relativistic jets with the surroundings, but also carry the signature of internal processes of the central engine, possibly binary systems of supermassive black holes. Ultimately, long-term monitoring with 24-hour coverage is needed in addition to the shorter high sensitivity exposures provided by telescopes such as MAGIC, VERITAS and H.E.S.S., in order to study the physical origin of such flaring activity. This can be achieved with a global network of small robotic Cherenkov telescopes. As a first step, we plan to set up a fully dedicated small Cherenkov telescope and carry out joint observations with the Whipple 10 m monitor telescope. The new low cost, but high performance telescope will be the upgrade of one of the former HEGRA telescopes, still located at the Observatorio del Roque de los Muchachos on the Canarian Island of La Palma (Spain). The most important novelties will be its robotic operation and novel camera, greatly improving its sensitivity and lowering the energy threshold. [ABSTRACT FROM AUTHOR]

Published

2008

3. FACT—The first Cherenkov telescope using a G-APD camera for TeV gamma-ray astronomy

Author

Anderhub, H., Backes, M., Biland, A., Boller, A., Braun, I., Bretz, T., Commichau, S., Commichau, V., Domke, M., Dorner, D., Gendotti, A., Grimm, O., von Gunten, H., Hildebrand, D., Horisberger, U., Köhne, J.-H., Krähenbühl, T., Kranich, D., Krumm, B., and Lorenz, E.

Subjects

*CHERENKOV counters, *CHERENKOV radiation, *AVALANCHE photodiodes, *GAMMA ray astronomy, *ASTRONOMICAL photography, *CRAB Nebula

Abstract

Abstract: Geiger-mode Avalanche Photodiodes (G-APD) bear the potential to significantly improve the sensitivity of Imaging Air Cherenkov Telescopes (IACT). We are currently building the First G-APD Cherenkov Telescope (FACT) by refurbishing an old IACT with a mirror area of 9.5 square meters and are constructing a new, fine-pixelized camera using novel G-APDs. The main goal is to evaluate the performance of a complete system by observing very high energy gamma-rays from the Crab Nebula. This is an important field test to check the feasibility of G-APD-based cameras to replace at some time the PMT-based cameras of planned future IACTs like AGIS and CTA. In this article, we present the basic design of such a camera as well as some important details. [Copyright &y& Elsevier]

Published

2011

4. A G-APD based Camera for Imaging Atmospheric Cherenkov Telescopes

Author

Anderhub, H., Backes, M., Biland, A., Boller, A., Braun, I., Bretz, T., Commichau, S., Commichau, V., Dorner, D., Gendotti, A., Grimm, O., von Gunten, H., Hildebrand, D., Horisberger, U., Köhne, J.-H., Krähenbühl, T., Kranich, D., Lorenz, E., Lustermann, W., and Mannheim, K.

Subjects

*TELESCOPES, *CHERENKOV counters, *AVALANCHE photodiodes, *CAMERAS, *GAMMA ray astronomy, *PHOTOMULTIPLIERS, *DETECTORS, *PROTOTYPES, *COSMIC ray showers

Abstract

Abstract: Imaging Atmospheric Cherenkov Telescopes (IACT) for Gamma-ray astronomy are presently using photomultiplier tubes as photo sensors. Geiger-mode avalanche photodiodes (G-APD) promise an improvement in sensitivity and, important for this application, ease of construction, operation and ruggedness. G-APDs have proven many of their features in the laboratory, but a qualified assessment of their performance in an IACT camera is best undertaken with a prototype. This paper describes the design and construction of a full-scale camera based on G-APDs realized within the FACT project (First G-APD Cherenkov Telescope). [ABSTRACT FROM AUTHOR]

Published

2011

5. LONG-TERM MONITORING OF BRIGHT BLAZARS WITH A DEDICATED CHERENKOV TELESCOPE.

Author

BACKES, M., BECKER, J. K., CLEVERMANN, F., NEISE, D., RHODE, W., ROLLKE, S., POHL, M., RIBORDY, M., RENKER, D., BRETZ, T., MANNHEIM, K., BILAND, A., BRAUN, I., BRITVICH, I., COMMICHAU, S. C., COMMICHAU, V., DORNER, D., GRIMM, O., VON GUNTEN, H., and HILDEBRAND, D.

Subjects

*ASTRONOMICAL instruments, *CHERENKOV radiation, *GALACTIC nuclei, *SUPERMASSIVE black holes, *PHOTONS

Abstract

Flaring activity of Active Galactic Nuclei (AGN) in VHE γ-ray astronomy is observed on timescales from minutes to years and can be explained either by the interaction of relativistic jets with the surrounding material or by imprints of the central engine, like temporal modulation caused by binary systems of supermassive black holes. The key to answer those questions lies in combining 24/7 monitoring with short high sensitivity exposures as provided by the third generation γ-ray astronomy instruments like MAGIC, VERITAS and H.E.S.S. The long-term observations can be provided by a global network of small robotic Cherenkov telescopes.1 As a first step, we are currently setting up a dedicated Cherenkov telescope, which will carry out joint observations with the Whipple 10 m telescope for AGN monitoring. The new telescope will be designed for low costs but high performance by upgrading one of the former HEGRA telescopes, still located at the MAGIC site on the Canary Island of La Palma (Spain). The main novelties will be its robotic operation and a novel camera type, resulting in a greatly improved sensitivity and a lower energy threshold. [ABSTRACT FROM AUTHOR]

Published

2009

6. Physics and astrophysics with a ground-based gamma-ray telescope of low energy threshold

Author

Fort, J. Albert i, Armada, A., Baixeras, C., Bartko, H., Bastieri, D., Bednarek, W., Bigongiari, C., Biland, A., Bisesi, E., Blanch, O., Bock, R.K., Bretz, T., Chilingarian, A., Ciprini, S., Commichau, S., Contreras, J.L., Cortina, J., Danielyan, V., Dazzi, F., and De Angelis, A.

Subjects

*ASTROPHYSICS, *ASTRONOMICAL instruments, *TELESCOPES, *METAPHYSICAL cosmology

Abstract

Abstract: Ground-based Cherenkov telescopes have made in recent years important contributions to high energy gamma-ray astronomy. A lower energy threshold, considerably below 100GeV, and improved sensitivity will be key parameters to extend their role. A lower threshold will permit these instruments to cover wavelengths with good overlap with satellite experiments, thus providing essential complementary information. The latest generation of Imaging Air Cherenkov Telescopes was built with this criterion in mind. Preliminary studies concerning further progress in the same direction have started. We discuss in this contribution the astrophysics and physics arguments for lowering the observable energy threshold as far as the Cherenkov technique permits, and the ensuing complementarity to results obtained with a GLAST-like satellite. [Copyright &y& Elsevier]

Published

2005

7. Results of the prototype camera for FACT

Author

Anderhub, H., Backes, M., Biland, A., Boller, A., Braun, I., Bretz, T., Commichau, S., Commichau, V., Dorner, D., Gendotti, A., Grimm, O., von Gunten, H., Hildebrand, D., Horisberger, U., Köhne, J.-H., Krähenbühl, T., Kranich, D., Lorenz, E., Lustermann, W., and Mannheim, K.

Subjects

*CHERENKOV counters, *PHOTON detectors, *PROTOTYPES, *AVALANCHE photodiodes, *CAMERAS, *GAMMA ray astronomy

Abstract

Abstract: The maximization of the photon detection efficiency (PDE) is a key issue in the development of cameras for Imaging Atmospheric Cherenkov Telescopes. Geiger-mode Avalanche Photodiodes (G-APD) are a promising candidate to replace the commonly used photomultiplier tubes by offering a larger PDE and in addition a facilitated handling. The FACT (First G-APD Cherenkov Telescope) project evaluates the feasibility of this change by building a camera based on 1440 G-APDs for an existing small telescope. As a first step towards a full camera, a prototype module using 144 G-APDs was successfully built and tested. The strong temperature dependence of G-APDs is compensated using a feedback system, which allows to keep the gain of the G-APDs constant to 0.5%. [Copyright &y& Elsevier]

Published

2011