Using Pulsars For Spacecraft Navigation

Jimme Blue writes "The use of pulsars as a GPS analogue holds the promise of fixing a spacecraft's location to within 5 km, anywhere in the galaxy. While not ready for immediate use, it may be ready for use within the Solar System in the next 10-15 years. From the article: '"The principle is so simple that it will definitely have applications," said Prof Werner Becker from the Max-Planck Institute for Extraterrestrial Physics in Garching. "These pulsars are everywhere in the Universe and their flashing is so predictable that it makes such an approach really straightforward," he told BBC News.'"

Really old idea

[GryMor]

This has been in use in sci-fi since the dawn of space opera. It gained sufficient use that it was internalized to the point that it's rarely mentioned anymore, you could even say it's why most sci-fi expects a reliable knowledge of location and date even in the face of miss-folds and unplanned time travel.

Re:Too Late.

[Samantha+Wright]

I assume you took this prior art as inspiration? (Incidentally, I also tend to recall Sagan mentioning pulsars in the first episode of Cosmos being once believed to be a form of alien navigation. Guess that's why he and Drake put them on the plaque.)

Prior art

[hawguy]

This isn't exactly a new idea:

http://en.wikipedia.org/wiki/Pioneer_plaque#Relative_position_of_the_Sun_to_the_center_of_the_Galaxy_and_14_pulsars

Re:Visibility is an issue

[gstrickler]

Your logic is flawed. The Milky Way doesn't follow lie along the equator because the earth is tilted on it's axis.

The fact that we can see other pulsars (many of them) from within the Milky Way means that those pulsars are either rotating on an axis nearly perpendicular to the galactic plane (aka galactic equator), or they're tilted relative to to the galactic plane and we happen to be nearly perpendicular to their axis of rotation. Since we know that not all stars rotate in the galactic plane (e.g. the solar systems ecliptic plane is inclined about 60 degrees from the galactic plane, and we have now observed enough other planetary systems to know that isn't uncommon), then it's likely that some of the pulsars we can see are spinning approximately in the galactic plane, and that some are not. But given there are many more random orientations that are not on an axis perpendicular to the galactic plane, it's probable that most of the ones we can observe from earth are nearly perpendicular to the galactic plane, and will thus be visible throughout most of the galaxy. As we travel around the galaxy within the vicinity of the galactic plane, the pulsars we can see from any given point will be those that spin on an axis nearly perpendicular to the galactic plane, plus some smaller number at other orientations that happen to have an axis of rotation approximately perpendicular to a line between that point and the pulsar.