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NSERC Presents 2 Minutes with Victoria M. Kaspi
Astrophysics, McGill University

Summary

Video Name

2 Minutes with Victoria M. Kaspi

Author

NSERC Communications

Duration

2:17

Release Date

May 5, 2011

Description

Neutron starsóremnants of a collapsed larger staróoffer unique opportunities to delve into the very nature of matter because of the extreme gravitational and magnetic forces at work. They can be as small as several kilometres across but more massive than the Sun. Studying these unimaginably dense, far-off objects, McGill University astrophysicist, Victoria Kaspi, has increased our understanding of the fundamental physical laws governing the whole universe.

2 Minutes with Victoria M. Kaspi


Transcript
Victoria M. Kaspi

We collect data for neutron stars and, in particular, pulsars. These are neutron stars that rotate very rapidly and have a beam of light that rotates on the star like a lighthouse and flashes each time the star rotates. And we study these kind of stars using large radio and x-ray telescopes. We try and find new pulsars in our galaxy and when we find them we do detailed observations of them to try and understand things like the material between the stars, the interstellar medium and in some cases with binary pulsarsópulsars in orbit with another kind of starówe can do interesting things like test Einstein's Theory of General Relativity and sometimes also study eclipses. Sometimes pulsars eclipse so we can study plasma in very extreme circumstances.

It's very hard to predict what kind of impact this sort of fundamental research will have on society but, for example, you could imagine using pulsars as navigational beacons. They emit pulsations very regularly and in fact there has been one patent taken out to use pulsars for interstellar navigation. You can also use pulsars to create the world's best time standard and there's current research being done to try and do that. Currently, the best time standards are controlled by atomic clocks at national laboratories but it turns out many pulsars are extremely stable rotators and it might be possible to create a time standard better than even the atomic clocks.

And who knows? Perhaps by studying the nature of matter at very high densities maybe one day we'll be able to have a clean energy source and you can drive your car powered by a tiny little pellet of ultra dense neutron star matter without any kind of pollution. That's very off in the distance and maybe will never happen, but you never know.

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