Planck photon rocket drives — which in theory could hit velocities equal to 99.999 percent the speed of light — might eventually offer propulsion engineers a way to drastically reduce interstellar travel times without trashing the laws of physics as we currently understand them. A hypothetical photon rocket’s directional thrust would come from photons (or electromagnetic radiation in the form of light) and turn a one-way journey to Mars into a three-minute and four second trip.
In a forthcoming paper in the journal Acta Astronautica, a Norwegian in a vacuum, or 186,282 miles per second But that’s also still considerably beyond the limits of what can currently be achieved in today’s particle accelerators.
“The ,” said Haug, who teaches quantitative finance at the Norwegian University of Life Sciences. He admits that’s an unconventional background for rocket science but says a lot of the math used in contemporary physics directly overlaps with finance option theory, so photon rockets are not that much of a stretch.
Haug used such math to combine contemporary conventional rocket theory with the theories of the pioneering theoretical physicist Max Planck’s work on the nature of fundamental mass, length and time intervals. Using these calculations, in his paper, Haug shows that in theory two Planck masses of fuel would be needed for every fundamental particle in a rocket’s payload. (One Planck mass is theorized to have about the same mass as a flea egg.)
“Laboratory experiments show that the concept of driving an object forward by using only photons is clearly possible,” said Haug. “But there is still a long way to go in developing large photon rockets that could send materials or people into outer space.”
Haug speculates that any given fundamental particle should in theory turn into a hypothetical Planck mass particle as soon as it reaches its maximum velocity. Theorized to be micro-sized black holes by some physicists, including Stephen Hawking, Planck mass particles are thought to be more massive than any known observed fundamental particle, but as yet have never been detected. Some theorists reason they may have been prevalent in the first moments after the cosmological Big Bang.