They have a repeating cycle in space.

They exhibit perpetual motion while in equilibrium.

They are made of superconducting materials.

They are only theoretical and cannot be synthesized.

By using superconducting rings.

By using external energy inputs to force oscillating states.

By cooling materials to absolute zero.

By aligning atoms in a magnetic field.

It measures the oscillation frequency of the ions.

It cools the ions to a low energy state.

It provides a magnetic field for alignment.

It acts as an external energy source to induce oscillations.

Using ytterbium ions and microwaves.

Using superconducting rings and lasers.

Using magnetic fields and superconductors.

Using nitrogen impurities in diamonds and ytterbium ions.

It plots temperature versus pressure.

It shows the interaction strength versus imperfection in the driving signal.

It displays the magnetic field strength required for oscillations.

It maps the energy levels of different ions.

By providing a new form of energy storage.

By stabilizing quantum states for memory elements.

By increasing the speed of quantum calculations.

By reducing the size of quantum computers.

They might lead to the discovery of new elements.

They could unify the theories of electromagnetism and gravity.

They might bridge the gap between quantum mechanics and general relativity.

They could replace traditional crystals in electronic devices.