Again, you are thinking in terms of propellant carried up from Earth.
Thrust available to a spacecraft using a solar sail is a function of distance to the sun. The sail is a fixed cost, but it may be presumed to degrade over time. It has no propellant that costs additional money to launch.
If you go in, the ever decreasing efficiency of the sail is offset by the greater available energy from the solar wind, and you may still be able to complete the mission (more slowly) with a damaged sail. Your available thrust increases with every kilometer closer to the sun.
If you go out, the decreasing efficiency of the sail compounds with the lesser total energy available to the sail, and if the sail is damaged, you may never reach escape velocity at all. You will never have more thrust than the instant the sail deploys.
Thrust available to a spacecraft using a solar sail is a function of distance to the sun. The sail is a fixed cost, but it may be presumed to degrade over time. It has no propellant that costs additional money to launch.
If you go in, the ever decreasing efficiency of the sail is offset by the greater available energy from the solar wind, and you may still be able to complete the mission (more slowly) with a damaged sail. Your available thrust increases with every kilometer closer to the sun.
If you go out, the decreasing efficiency of the sail compounds with the lesser total energy available to the sail, and if the sail is damaged, you may never reach escape velocity at all. You will never have more thrust than the instant the sail deploys.