Have you ever been in more than one place at the same time? If you are much bigger than an atom, the answer will be no.
But atoms and particles are governed by the rules of quantum mechanics, in which several different possible situations can coexist at once. Quantum systems are ruled by what is called a wave function: a mathematical object that describes the probabilities of these different possible situations.
And these different possibilities can coexist in the wave function as what is called a superposition of different states. For example, a particle existing in several different places at once is what we call spatial superposition.
It is only when a measurement is carried out that the wave function collapses and the system ends up in one definite state.
Generally, quantum mechanics applies to the tiny world of atoms and particles. The jury is still out on what it means for large-scale objects.
In our research, published in Optica, we propose an experiment that may resolve this thorny question once and for all.
In the 1930s, Austrian physicist Erwin Schrdinger came up with his famous thought experiment about a cat in a box which, according to quantum mechanics, could be alive and dead at the same time.
In it, a cat is placed in a sealed box in which a random quantum event has a 5050 chance of killing it. Until the box is opened and the cat is observed, the cat is both dead and alive at the same time.
In other words, the cat exists as a wave function (with multiple possibilities) before it is observed. When it is observed, it becomes a definite object.
After much debate, the scientific community at the time reached a consensus with the Copenhagen interpretation. This basically says quantum mechanics can only apply to atoms and molecules, but cannot describe much larger objects.
Turns out they were wrong.
In the past two decades or so, physicists have created quantum states in objects made of trillions of atoms large enough to be seen with the naked eye. Although, this has not yet included spatial superposition.
But how does the wave function become a real object? This is what physicists call the quantum measurement problem. It has puzzled scientists and philosophers for about a century.
If there is a mechanism that removes the potential for quantum superposition from large-scale objects, it would require somehow disturbing the wave function and this would create heat.
If such heat is found, this implies large-scale quantum superposition is impossible. If such heat is ruled out, then its likely nature doesnt mind being quantum at any size.
If the latter is the case, with advancing technology we could put large objects, maybe even sentient beings, into quantum states.
Physicists do not know what a mechanism preventing large-scale quantum superpositions would look like. According to some, it is an unknown cosmological field. Others suspect gravity could have something to do with it.
This years Nobel Prize winner for physics, Roger Penrose, thinks it could be a consequence of living beings consciousness.
Over the past decade or so, physicists have been feverishly seeking a trace amount of heat which would indicate a disturbance in the wave function.
To find this out, we would need a method that can suppress (as perfectly as is possible) all other sources of excess heat that may get in the way of an accurate measurement. We would also need to keep an effect called quantum backaction in check, in which the act of observing itself creates heat.
In our research, we have formulated such an experiment, which could reveal whether spatial superposition is be possible for large-scale objects. The best experiments thus far have not been able to achieve this.
Our experiment would use resonators at much higher frequencies than have been used. This would remove the issue of any heat from the fridge itself.
As was the case in previous experiments, we would need to use a fridge at 0.01 degrees kelvin above absolute zero. (Absoloute zero is the lowest temperature theoretically possible).
With this combination of very low temperatures and very high frequencies, vibrations in the resonators undergo a process called Bose condensation.
You can picture this as the resonator becoming so solidly frozen that heat from the fridge cant wiggle it, not even a bit.
We would also use a different measurement strategy that doesnt look at the resonators movement at all, but rather the amount of energy it has. This method would strongly suppress backaction heat, too.
Single particles of light would enter the resonator and bounce back and forth a few million times, absorbing any excess energy. They would eventually leave the resonator, carrying the excess energy away.
By measuring the energy of the light particles coming out, we could determine if there was heat in the resonator.
If heat was present, this would indicate an unknown source (which we didnt control for) had disturbed the wave function. And this would mean its impossible for superposition to happen at a large scale.
The experiment we propose is challenging. It is not the kind of thing you can casually set up on a Sunday afternoon. It may take years of development, millions of dollars and a whole bunch of skilled experimental physicists.
Nonetheless, it could answer one of the most fascinating questions about our reality: is everything quantum? And so, we certainly think it is worth the effort.
As for putting a human, or cat, into quantum superposition there is really no way for us to know how this would effect that being.
Luckily, this is a question we do not have to think about, for now.
Stefan Forstner is a Postdoctoral Research Fellow at the The University of Queensland.
This article first appeared on The Conversation.
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