Space

Sedna, this reddish dwarf planet follows such an extreme orbit that it takes more than 11,000 years to complete a single journey around the sun. Now, scientists are proposing a new mission to reach this distant world using a revolutionary propulsion technology.

A new feasibility study, posted to the arXiv preprint server, has examined two cutting-edge approaches to technology that would reach Sedna within this narrow window of opportunity. The first involves the direct fusion drive (DFD), a conceptual nuclear fusion engine, designed to produce both thrust and electric power. For the DFD, researchers assume a 1.6 MW system with constant thrust and specific impulse, representing a massive leap beyond current propulsion technology.

The second approach involves an ingenious variation on solar sailing technology. Rather than relying entirely on solar radiation pressure, this concept uses thermal desorption instead. This is a process where molecules or atoms that are stuck to a surface are released when that surface is heated up, and it's this process that produces the propulsion. It would be assisted by a gravity assist maneuver around Jupiter, using the planet's immense gravitational field as a gravitational slingshot.

...With an estimated mass of around 100 times that of Earth or 0.3 times the mass of Jupiter, TWA 7b is ten times lighter than any exoplanet previously directly imaged.

TWA 7b was discovered in the debris rings that surround the low-mass star CE Antilae, also known as TWA 7, located around 111 light-years from Earth.