[arethuza]

I was assuming something little thicker than optical fibre - the "probe" could be self powered using an RTG with the "waste" heat doing the melting?

Once the ice freezes again behind the probe it would protect the fibre... perhaps?

Fortunately something like that wouldn't be too difficult to test on Earth - probe recovery might be tricky though.

[nick238]

A mini nuclear-reactor-as-a-heat-source might be appropriate for a melt-drill. RTGs are a bit unfortunate as they'll exponentially decay from the time of manufacturing, and you'll need to both 1. deliver high enough power at Europa, and 2. radiate away that much power and a bit more when you're flying there.

A nuclear reactor could produce basically no heat while offline, then be switched on and suddenly provide 100s of kW when it gets to wherever it's going. The hard part in space is radiating away the heat, but if you're on an ice world, that's orders of magnitude easier.

The hardest part I'd see would just be getting into the ice; there's not really any "melting" in vacuum. The constant boiling away of the water would keep insulating your heater from the ice. Meters 1 to 20,000 are probably pretty easy.