However, the idea is far from being universally accepted. Quantum mechanics, the theory of this world, is magic.”įollowing decades of often fierce debate, the view that quantum systems cannot possibly be described using classical principles, as set out by pioneering physicists including Newton and Maxwell, continues to be widely shared. “It is a world where particles can be in different places at the same time, where particles communicate faster than light by telepathic contact, and where ‘Schrödinger’s cat’ can be dead and alive at the same time. “The world of atoms is strange”, Dr van Holten describes. Spurred on by this exciting prospect, the picture of the quantum world painted by scientists and the media alike presents a world whose physics is completely disconnected from our own, classical realm. ![]() To many, the idea that the universe’s fundamental building blocks could be governed by a completely different set of physical rules to those we are so familiar with is utterly fascinating. Quantum mechanics has captured countless imaginations since it first emerged in the early 20 th century. Through the principles of Emergent Quantum Mechanics he proposes new evidence that the quantum and classical worlds may not be at odds with each other all while providing a potential explanation to one of the most pressing mysteries in particle physics. ![]() Yet Professor Theo van Holten at the Delft University of Technology believes that the physics required to describe quantum systems may not need to be nearly as exotic as many physicists currently believe. From tunnelling to entanglement, the world of quantum mechanics describes a diverse array of seemingly bizarre behaviours which only emerge on the very smallest of scales.
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