Thus, each material is composed of atoms. A group of atoms assembled to form molecules. Well, each of these atoms has their respective energies, and they move on at a rate that depends on the amount of energy the atom has.
Scientists agree that the higher the temperature of a material, the energy possessed by the constituent atoms is also greater. Conversely, the more descending or cold its temperature, the atomic energy also disappears, and the atomic motion is slower.
Suppose we put a bottle of water into the freezer in the refrigerator. Then the water molecules will lose energy little by little as cooling occurs, until the water turns to ice.
But remember, even though it's ice (at zero degrees Celsius), the water molecules still have energy, and the atoms are still moving at a much slower pace. Then is there a condition where atoms really lose all their energy?
Scientists argue that atoms can not possibly lose 100% of their energy. Or in other words, in theory the absolute zero condition, or absolute zero is unlikely to happen. Because in any history it can never be proven that atoms can lose energy altogether and stop moving completely.
Well, now it's understood, what about the absolute zero or absolute zero? It turns out that all is related to the amount of energy contained by atoms.
I agree with your assertion, losing all the energy (at quantum level inclusive) is impossible.