Brainy Quote of the Day

Wednesday, September 9, 2015

Light Sails Leakage...

Image Source: MIT Technology Review
Topics: Astronomy, Astrophysics, Instrumentation, Space Flight, SETI, Solar Sail

Please note the emoji: \\//_. That Trekkie cred set: It's probably going to be a lot easier to detect civilizations closer, but slightly past our stage of admitted technological adolescence, currently beset and hindered by fear of all things science and willful ignorance. With the noted exception of Star Trek, most of the science fiction I'm reading recently stay in the Einstein-relativistic-speeds range, along with the effects of time dilation to their plot twists. If an intelligence has begun to at least explore their own outer planets, maybe...just maybe there's hope that we'll survive our own hubris.

TECHNOLOGY REVIEW: Light sails are a promising way of exploring star systems. If other civilizations use them, these sails should be visible from Earth, say astrophysicists.

Abstract
The primary challenge of rocket propulsion is the burden of needing to accelerate the spacecraft's own fuel, resulting in only a logarithmic gain in maximum speed as propellant is added to the spacecraft. Light sails offer an attractive alternative in which fuel is not carried by the spacecraft, with acceleration being provided by an external source of light. By artificially illuminating the spacecraft with beamed radiation, speeds are only limited by the area of the sail, heat resistance of its material, and power use of the accelerating apparatus. In this paper, we show that leakage from a light sail propulsion apparatus in operation around a solar system analogue would be detectable. To demonstrate this, we model the launch and arrival of a microwave beam-driven light sail constructed for transit between planets in orbit around a single star, and find an optimal beam frequency on the order of tens of GHz. Leakage from these beams yields transients with flux densities of Jy and durations of tens of seconds at 100 pc. Because most travel within a planetary system would be conducted between the habitable worlds within that system, multiply-transiting exoplanetary systems offer the greatest chance of detection, especially when the planets are in projected conjunction as viewed from Earth. If interplanetary travel via beam-driven light sails is commonly employed in our galaxy, this activity could be revealed by radio follow-up of nearby transiting exoplanetary systems. The expected signal properties define a new strategy in the search for extraterrestrial intelligence (SETI).

Physics arXiv: SETI via Leakage from Light Sails in Exoplanetary Systems
James Guillochon (1), Abraham Loeb (1) ((1) Harvard ITC)

No comments:

Post a Comment