The MeerKAT telescope represents an outstanding opportunity for radio pulsar
timing science with its unique combination of a large collecting area and
aperture efficiency (effective area ∼7500 m2), system temperature
(T<20K), high slew speeds (1-2 deg/s), large bandwidths (770 MHz at 20cm
wavelengths), southern hemisphere location (latitude ∼−30∘) and
ability to form up to four sub-arrays. The MeerTime project is a five-year
program on the MeerKAT array by an international consortium that will regularly
time over 1000 radio pulsars to perform tests of relativistic gravity, search
for the gravitational wave signature induced by supermassive black hole
binaries in the timing residuals of millisecond pulsars, explore the interiors
of neutron stars through a pulsar glitch monitoring programme, explore the
origin and evolution of binary pulsars, monitor the swarms of pulsars that
inhabit globular clusters and monitor radio magnetars. In addition to these
primary programmes, over 1000 pulsars will have their arrival times monitored
and the data made immediately public. The MeerTime pulsar backend comprises two
server-class machines each of which possess four Graphics Processing Units. Up
to four pulsars can be coherently dedispersed simultaneously up to dispersion
measures of over 1000 pc cm−3. All data will be provided in psrfits
format. The MeerTime backend will be capable of producing coherently
dedispersed filterbank data for timing multiple pulsars in the cores of
globular clusters that is useful for pulsar searches of tied array beams. All
MeerTime data will ultimately be made available for public use, and any
published results will include the arrival times and profiles used in the
results.Comment: 15 pages, MeerKAT Science: On the Pathway to the SKA, 25-27 May,
2016, Stellenbosch, South Africa, available at:
https://pos.sissa.it/277/011/pd