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A team of physicists from Sweden, Germany and Spain managed to document the moments of transition of an electron by taking a series of images of strontium ion held in an electric field. Scientists research has attracted a lot of attention with the comments that the universe we experience in our daily lives is not like what we see when we try to look closely.

Objects are an extraordinary result of physics, and these objects can only be identified using a number of sets of probabilities. They all look like duplicates until they try to explore with light to determine their specific size and nature.

In the 1940s, the American-Hungarian mathematician John von Neumann thought that part of the quantum system, for example, the position of the orbital electron, would create enough quantum for all to give up the probable nature of its measurement.

Years later, a German theoretical physicist named Gerhart Lders disagreed with Neumanns assumptions, pointing out that some unstable qualities of a particles possibilities can circulate even while others are being clarified. Although physicists have agreed with Lders in theory, it is not easy to demonstrate experimentally based on measuring some naturally occurring actions in such a way that they do not interfere with each other.

The same quantum computer systemThe researchers placed the electron in a missing strontium atom, trapped the ion in a way to clarify which of the remaining electrons was inside, causing both to meet.

It is actually the same setup that is used in many quantum computers. Quantum computers calculate based on the probability of an objects state before measuring, which means they have an exponentially higher data processing potential than conventional computers.

Research sheds light on the inner workings of natureEvery time we measure the orbit of the electron, the answer will be whether the electron is in a lower or higher orbit, nothing will be between them, said physicist Fabian Pokorny from the University of Stockholm. These findings shed new light on the inner workings of nature and are consistent with the predictions of modern quantum physics, said colleague Markus Hennrich, a physicist researcher at the University of Stockholm.

The research is not the first experiment to show that the quantum leap in the probability of an electron is an expansion process, such as eruption of a volcano rather than a key. However, it is possible to say that the way the change took place adds some interesting details that allow such ideal measurements. Scientists experiments on the subject continue at full speed.

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Physicists Captured The Moment That An Atom Enters Quantum Measurement - Somag News