350 research outputs found
Stellar intensity interferometry: Optimizing air Cherenkov telescope array layouts
Kilometric-scale optical imagers seem feasible to realize by intensity
interferometry, using telescopes primarily erected for measuring Cherenkov
light induced by gamma rays. Planned arrays envision 50--100 telescopes,
distributed over some 1--4 km. Although array layouts and telescope sizes
will primarily be chosen for gamma-ray observations, also their interferometric
performance may be optimized. Observations of stellar objects were numerically
simulated for different array geometries, yielding signal-to-noise ratios for
different Fourier components of the source images in the interferometric
-plane. Simulations were made for layouts actually proposed for future
Cherenkov telescope arrays, and for subsets with only a fraction of the
telescopes. All large arrays provide dense sampling of the -plane due to
the sheer number of telescopes, irrespective of their geographic orientation or
stellar coordinates. However, for improved coverage of the -plane and a
wider variety of baselines (enabling better image reconstruction), an exact
east-west grid should be avoided for the numerous smaller telescopes, and
repetitive geometric patterns avoided for the few large ones. Sparse arrays
become severely limited by a lack of short baselines, and to cover
astrophysically relevant dimensions between 0.1--3 milliarcseconds in visible
wavelengths, baselines between pairs of telescopes should cover the whole
interval 30--2000 m.Comment: 12 pages, 10 figures; presented at the SPIE conference "Optical and
Infrared Interferometry II", San Diego, CA, USA (June 2010
Optimization of large homogeneous air Cherenkov arrays and application to the design of a 1TeV-100TeV gamma-ray observatory
At the time large air Cherenkov arrays are being discussed for future
gamma-ray observatories, we review the relationship between the targeted
capabilities and the main design parameters taking into account construction
costs. As an example application, we describe a telescope array optimized for
observations between 1 TeV and a few 100 TeV and use detailed simulations to
estimate its performances in comparison to science objectives.Comment: 23 pages, 16 figures, accepted for publication in Astroparticle
Physic
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