Schrdingers Cat

Even if youre not that into heavy science, youre probably familiar with Schrdingers cat, the thought experiment that allows us to consider quantum states in which more than one state is possible at once. The cat is in a box that is closed, and with it is a vial of poison, a hammer that can smash the vial, a geiger counter, and a trace amount of radioactive material. The radioactive material, however, is such asmall amount that the geiger counter has only a 50 percent chance of detecting it. If it does, it will trigger the hammers smashing of the vial, and the cat will die.

We wont know until we open the box if the cat is alive or dead. We just know that each possibility it getting killed or surviving is equally likely. So, until the box is open, the cat exists in a kind of super position both alive and dead. Schrdingers point was that demonstrating its impossibility and silliness. But thanks to quantum physics, we now knowits not that silly and not necessarily impossible.

Speaking of thought experiments used to talk about quantum physics that were devised by people who never even considered quantum physics, lets consider the Zeno effect and the anti-Zeno effect. Zeno of Elea was a philosopher who made it his life mission to prove that everything was B.S., and he did that by devising paradoxes to demonstrate that even things that seem obviously true to us are, in fact, false. One of these is the arrow paradox, from which arises the Zeno effect and its corollary.

The Zeno effect works like this: in order to measure or observe something at aparticular moment,it must be motionless. Say you want to see if an atom has decayed or not. In reality, although there are two possible states, most of the time the chances are not 50/50. Thats because it takes time for something to decay at least a tiny bit of time. Therefore, if you check on the atom quickly and often enough, it wont decay.The corollary anti-Zeno effect is also true. If you delay measurement until the atom is likely to have decayed, then keep this pattern going, you can force the system to decay more rapidly.

Scientists at Washington University in St. Louis wanted to know what happens if you disturb the system again and again, but dont relay any data. In other words, they wanted to see if it is the act of measurement and observation or simply the disturbing influence that causes the Zeno effect. To find out, they experimented with qubits and devised quasimeasurement,in which the atom is disturbed, but no information about it is measured or relayed.

The team found that even quasimeasurements cause the Zeno effect. The quantum environment doesnt need to be connected to the outside environment for the disturbance to achieve the effect. These findingsare interesting because they open up new areas of research into how we might beable to control quantum systems.

Oh, and by the way: no cats, philosophers, or physicists were hurt in the experiments.

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How Schrdinger's Cat Helps Explain the New Findings About the Quantum Zeno Effect - Futurism