A multi-pixel beamformer using an interferometric array and its application towards localisations of newly discovered pulsars

TL;DR

This paper introduces a multi-pixel beamformer technique for interferometric arrays, demonstrated with GMRT, enabling precise pulsar localization and efficient targeted searches, enhancing pulsar study capabilities.

Contribution

The paper presents a real-time multi-pixel beamformer algorithm that combines sensitivity and wide field-of-view, improving pulsar localization and survey efficiency.

Findings

Formed 16 directed beams in real-time.

Achieved precise pulsar positions with single observations.

Enhanced capabilities for pulsar surveys and follow-up studies.

Abstract

We have developed a multi-pixel beamformer technique, which can be used for enhancing the capabilities for studying pulsars using an interferometric array. Using the Giant Metrewave Radio Telescope (GMRT), we illustrate the application of this efficient technique, which combines the enhanced sensitivity of a coherent array beamformer with the wide field-of-view seen by an incoherent array beamformer. Multi-pixel beamformer algorithm is implemented using the recorded base-band data. With the optimisations in multi-pixelisation described in this paper, it is now possible to form 16 directed beams in real-time. We discuss a special application of this technique, where we use continuum imaging followed by the multi-pixel beamformer to obtain the precise locations of newly discovered millisecond pulsars with the GMRT. Accurate positions measured with single observations enable highly sensitive follow-up studies using coherent array beamformer and rapid follow up at higher radio frequencies and other wavelengths. Normally, such accurate positions can only be obtained from a long-term pulsar timing program. The multi-pixel beamformer technique can also be used for highly sensitive targeted pulsar searches in extended supernova remnants. In addition this method can provide optimal performance for the large scale pulsar surveys using multi-element arrays.