Photonic Propulsion for Relativistic Flight Enabling the First Interstellar Missions Philip Lubin

Описание: Philip Lubin 2015-2016 Seminar Series
April 21, 2016

Recent advances in photonics and directed energy systems now allow us to realize what was only a decade ago, simply science fiction. It is no longer. Spacecraft from fully-functional gram-level wafer-scale systems (“wafer sats”) capable of speeds greater than ¼ c that could reach the nearest star in 20 years to spacecraft for large missions capable of supporting human life with masses more than 105 kg (100 tons) that could reach speeds of greater than 1000 km/s can be realized. With this technology spacecraft can be propelled to speeds currently unimaginable with our existing propulsion technologies.

To do so requires a fundamental change in our thinking of both propulsion and our definition of what a spacecraft is. In addition to larger spacecraft, capable of transporting humans, we focus on “spacecraft on a wafer” that include integrated optical communications, imaging and spectroscopy systems, navigation, photon thrusters, radiation and magnetic field sensors combined with directed energy propulsion. Since the propulsion system stays “at home” the costs can be amortized over a very large number of missions. In addition, the same photon driver can be used for planetary defense, beaming energy to distant spacecraft, sending power back to Earth as needed, stand-off composition analysis, long range laser communications, SETI searches, and even terraforming. This would be a profound voyage for humanity, one whose non-scientific implications would be enormous. We will discuss a major new initiative surrounding this program.

For more information, see: http://www.deepspace.ucsb.edu/project...