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Proposal Identication No.: P2945 Date Received: 2014-Sep-02 16:30:01
Technical Page
This proposal has not been submitted before.
Proposal Type: Large
General Category: Pulsars
Observation Category: Galactic
Total Time Requested: 130 Hours
Minimum Useful Time: 30 minutes
Proposal Title: An Improved Single-Source Detector for the North American Nanohertz Obser-
vatory for Gravitational Waves
ABSTRACT:
The North American Nanohertz Observatory for Gravitational Waves (NANOGrav) is a collaboration of scientists
and students that uses many radio pulsars as a type of Galactic-scale detector in an eort to be the rst to directly
detect gravitational waves (GWs). The current NANOGrav observing program is optimized for the detection of a
stochastic background of GWs from unresolved sources in the Universe, but not robust for the detection of
resolvable, individual GW sources. In this proposal, we request an increased observing cadence for ve of the
best-timed NANOGrav pulsars in an eort to boost our sensitivity to individual GW sources as shown in recent
studies and simulations described in the accompanying text. These measurements will be crucial for understanding
largely unconstrained astrophysical processes in uencing the population of potential GW sources, such as merging
supermassive black-hole binary systems.
Name Institution E-mail Phone Student
Emmanuel Fonseca The University of
British Columbia
efonseca@phas.ubc.ca 604-218-5426 G
Remote Observing Request
Observer will travel to AO
X Remote Observing
In Absentia (instructions to oper-
ator)
Instrument Setup
430 G L-wide S-low
Atmospheric Observation Instruments:
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Special Equipment or setup: We will also continue to use the PUPPI data acquisition system
currently operating at Arecibo Observatory for high-precision, real-time measurements of TOAs from
each pulsar.
RFI Considerations
Frequency Ranges Planned
420-440
1150-1800
1700-2400
This proposal requires coordination with Punta Salinas radar within the band 1222-1381 MHz..
This proposal requires coordination with GPS L3 at 1381 MHz.
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