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Collaborative Research: Massive Surveys for Pulsars and Radio Transients Using the Arecibo L-band Feed Array

$269,664FY2008MPSNSF

University Of California-Berkeley, Berkeley CA

Investigators

Abstract

This collaborative project will discover and study a large sample of neutron stars and also search for a variety of radio transient sources using the Arecibo L-band Feed Array (ALFA) at the Arecibo telescope. The science return results from both the hundreds of expected new pulsars and from rare, individual objects that will serve as laboratories for probing fundamental areas in physics and astrophysics. The pulsar survey will complement and transcend previous surveys by reaching more than twice the distance of the very successful multibeam survey using the Parkes telescope. The work is expected to lead to discoveries of rare objects that will be used as laboratories for basic physics and astrophysics to probe the equation of state of nuclear matter, gravity in compact, high-mass binaries, and gravitational-wave backgrounds. Discoveries may include the first black-hole/neutron-star binary, which would allow unprecedented studies of gravity in the strong-field limit. The large sample of new pulsars, when combined with existing ones, will contribute to the understanding of neutron stars as end products of stellar evolution, and will enable state-of-the-art modeling of the Milky Way Galaxy with respect to its ionized components. Also, use of the large number of pulsars as tracers will allow delineation of some ambiguously defined spiral arms of the Galaxy. The ultimate goals of the project will be enabled by the availability in 2008 of a new spectrometer that utilizes the full capabilities of the 7-beam system at Arecibo, and the availability of computer and data storage systems that can process and archive the large volume of data generated. Specific tasks include developmental activities related to the commissioning at Arecibo of the large bandwidth spectrometer, the setting up of the infrastructure required to analyze the data, and the intensive data analysis required to find new pulsars, all of which will be conducted in collaboration with the Pulsar ALFA Consortium, an international group of about 30 researchers. Over the 3-year project, about 1000 Terabytes of data will be analyzed using several computer clusters. Post-discovery studies will include timing campaigns and multiwavelength observations. A web-based system will provide access to source catalogs, timing models, and intermediate data products that can be used as a resource for synergistic studies. Raw data will be archived for long-term data mining applications and use in multiwavelength campaigns, such as future gamma-ray space telescope observations that require radio counterpart observations. The large data volume requires development of data management for streamlined analysis, archival and retrieval. The project therefore serves as a prototype for future data-intensive surveys in astronomy, and will enable eventual connection to multi-user facilities such as national and international virtual observatories. The project will also contribute to the training of graduate students, and to the teaching of undergraduate students by their inclusion in certain aspects of data analysis.

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