The energy from fusion comes from the nuclear strong force, and this really kicks in within a few femtometers of the nucleus. This is well within the electron shells. Outside of this range, the dominant force is the electrostatic force, where the positive charges of the nuclei repel one another, the negative electron clouds around them also refuse to share the same space. This means that, if it weren’t for the incredibly strong nuclear force, fusion would actually require exorbitant amounts of energy to bring about and not produce anything, since you have to push a proton ‘uphill’ so far to get fusion to occur.

With the strong nuclear force, while it still requires all of that energy to overcome the electrostatic repulsion, it releases *even more energy* once that’s done.

To provide the amount of energy to each individual particle to overcome this barrier, some combination of heat, pressure, and linear motion is used.