Searching for pulsars in the Galactic centre at 3 and 2 mm

Pulsars in the Galactic Centre promise to enable unparalleled tests of gravity theories and black hole physics and serve as probes of the stellar formation history and evolution and the interstellar medium in the complex central region of the Milky Way. Since decades, the community surveyed the innermost region of the galaxy without detecting a population of pulsars, which is puzzling. A strong scattering of the pulsed signals in this particular direction has been argued as a potential reason for the non-detections. With scattering having a strong inverse dependence with observing frequency, an effective way to alleviate its impact is to use higher frequencies when surveying for pulsars in the Galactic Centre, in particular close to the supermassive black hole, Sagittarius A*. Here, we present the first pulsar survey at short millimetre wavelengths, using several frequency bands between 84 and 156 GHz (3.57-1.92 mm), targeted to the Galactic Centre. The observations were done with the Institut de Radioastronomie Millimetrique (IRAM) 30m Telescope on 28 epochs between 2016 December and 2018 May. This survey is the first essentially unaffected by scattering and therefore unbiased in population coverage, including fast-spinning pulsars that might be out of reach of lower-frequency Galactic Centre surveys. We discovered no new pulsars, a result that we relate mainly to the decreased flux density of pulsars at high frequencies combined with our current sensitivity. However, we demonstrate that surveys at these extremely high radio frequencies are capable of discovering new pulsars, analyse their sensitivity limits with respect to a simulated Galactic Centre pulsar population, and discuss the major challenges and how to improve similar surveys in the future.