11 research outputs found
Extreme adaptive optics imaging with a clear and well-corrected off-axis telescope sub-aperture
Rather than using an adaptive optics (AO) system to correct a telescope s
entire pupil, it can instead be used to more finely correct a smaller
sub-aperture. Indeed, existing AO systems can be used to correct a sub-aperture
1/3 to 1/2 the size of a 5-10 m telescope to extreme adaptive optics (ExAO)
levels. We discuss the potential performance of a clear off-axis well-corrected
sub-aperture (WCS), and describe our initial imaging results with a 1.5 m
diameter WCS on the Palomar Observatory s Hale telescope. These include
measured Strehl ratios of 0.92-0.94 in the infrared (2.17 microns), and 0.12 in
the B band, the latter allowing a binary of separation 0.34 arc sec to be
easily resolved in the blue. Such performance levels enable a variety of novel
observational modes, such as infrared ExAO, visible-wavelength AO, and
high-contrast coronagraphy. One specific application suggested by the high
Strehl ratio stability obtained (1%) is the measurement of planetary transits
and eclipses. Also described is a simple dark-hole experiment carried out on a
binary star, in which a comatic phase term was applied directly to the
deformable mirror, in order to shift the diffraction rings to one side of the
point spread function.Comment: accepted by Ap
Mid-infrared laser light nulling experiment using single-mode conductive waveguides
Aims: In the context of space interferometry missions devoted to the search
of exo-Earths, this paper investigates the capabilities of new single mode
conductive waveguides at providing modal filtering in an infrared and
monochromatic nulling experiment; Methods: A Michelson laser interferometer
with a co-axial beam combination scheme at 10.6 microns is used. After
introducing a Pi phase shift using a translating mirror, dynamic and static
measurements of the nulling ratio are performed in the two cases where modal
filtering is implemented and suppressed. No additional active control of the
wavefront errors is involved. Results: We achieve on average a statistical
nulling ratio of 2.5e-4 with a 1-sigma upper limit of 6e-4, while a best null
of 5.6e-5 is obtained in static mode. At the moment, the impact of external
vibrations limits our ability to maintain the null to 10 to 20 seconds.;
Conclusions: A positive effect of SM conductive waveguide on modal filtering
has been observed in this study. Further improvement of the null should be
possible with proper mechanical isolation of the setup.Comment: Accepted in A&A, 7 pages, 5 figure
Terrestrial planet finder interferometer: 2006-2007 progress and plans
This paper provides an overview of technology development for the Terrestrial Planet Finder Interferometer (TPF-I). TPF-I is a mid-infrared space interferometer being designed with the capability of detecting Earth-like planets in the habitable zones around nearby stars. The overall technology roadmap is presented and progress with each of the testbeds is summarized. The current interferometer architecture, design trades, and the viability of possible reduced-scope mission concepts are also presented
Terrestrial planet finder interferometer: 2006-2007 progress and plans
This paper provides an overview of technology development for the Terrestrial Planet Finder Interferometer (TPF-I). TPF-I is a mid-infrared space interferometer being designed with the capability of detecting Earth-like planets in the habitable zones around nearby stars. The overall technology roadmap is presented and progress with each of the testbeds is summarized. The current interferometer architecture, design trades, and the viability of possible reduced-scope mission concepts are also presented
Technology for a Mid-IR Flagship Mission to Characterize Earth-like Exoplanets
The exploration of Earth-like exoplanets will be enabled at mid-infrared wavelengths
through technology and engineering advances in nulling interferometry and precision formation
flying. Nulling interferometry provides the dynamic range needed for the detection of
biomarkers. Formation flying provides the angular resolution required in the mid-infrared to
separately distinguish the spectra of planets in multi-planet systems. The flight performance
requirements for nulling have been met and must now be validated in a flight-like environment.
Formation-flying algorithms have been demonstrated in the lab and must now be validated in
space. Our proposed technology program is described
Terrestrial Planet Finder Interferometer Technology Status and Plans
A viewgraph presentation on the technology status and plans for Terrestrial Planet Finder Interferometer is shown. The topics include: 1) The Navigator Program; 2) TPF-I Project Overview; 3) Project Organization; 4) Technology Plan for TPF-I; 5) TPF-I Testbeds; 6) Nulling Error Budget; 7) Nulling Testbeds; 8) Nulling Requirements; 9) Achromatic Nulling Testbed; 10) Single Mode Spatial Filter Technology; 11) Adaptive Nuller Testbed; 12) TPF-I: Planet Detection Testbed (PDT); 13) Planet Detection Testbed Phase Modulation Experiment; and 14) Formation Control Testbed
Measurement of Spatial Filtering Capabilities of Single Mode Infrared Fibers
Spatial filtering is necessary to achieve deep nulls in optical interferometer and single mode infrared fibers can serve as spatial filters. The filtering function is based on the ability of these devices to perform the mode-cleaning function: only the component of the input field that is coupled to the single bound (fundamental) mode of the device propagates to the output without substantial loss. In practical fiber devices, there are leakage channels that cause light not coupled into the fundamental mode to propagate to the output. These include propagation through the fiber cladding and by means of a leaky mode. We propose a technique for measuring the magnitude of this leakage and apply it to infrared fibers made at the Naval Research Laboratory and at Tel Aviv University
Technology for a Mid-IR Flagship Mission to Characterize Earth-like Exoplanets
Astronomy and Astrophysics Decadal Survey. Astro 2010. Astro2010: The Astronomy and Astrophysics Decadal Survey. vol. 2010.Not Availabl