I2M Associates's Web Portal for Geoscientists
About this Portal 
Index / Mining & Minerals - Evaluations / Off-World Exploration, Mining, & Technology

11/30/2016 by mdc
Dom Galeon reports that humans are gearing up to traverse the stars deeper than ever before. To that end, China launched the Long March 11 rocket this past November 10th, carrying with it a number of satellites. The most notable of these is one that could very well define deep space navigation for the future of space exploration.

China X-ray Pulsar Navigation 1 (XPNAV 1) satellite is the first x-ray navigation system. Prior to the XPNAV 1, the only way for spacecraft to keep track of their location is through the earth-based NASA Deep Space Network (DSN) and ESA European Space Tracking (ESTRACK). Even with all their capabilities, these do not really allow for spacecraft to boldly go where no one has gone before, a feat more possible using x-rays.

In a nutshell, it is the cosmic equivalent of GPS, said John Pye, the manager at the University of Leicester Space Research Center. The XPNAV 1 satellite, equipped with two power-generating solar arrays and two detectors, weighs about 240 kg (529 lbs). The satellite will run tests and gather data to build the pulsar x-ray database.

X-ray navigation (XNAV) relies on x-ray pulsars, usually found in systems with two stars. X-ray hotspots are generated when a denser neutron star pulls in gas from the other star via its magnetic field. As the pulsar rotates on its axis, it produces x-ray pulses at short intervals, which can then be used like a GPS system (with pulses instead of satellites). The time differential of the pulses from multiple pulsars can be measured and used by a spacecraft to determine its own location in the solar system within 5 kilometers (3.1 miles). The key is to find pulsars with more consistent pulses.

Read on ...

Resource thumbnail
Open Resource  |  2016/11/30  |  165 Report Broken   Tell Friend

About this Portal