News & Views item - October 2012 |
The 2012 Nobel Prize in Physics is Announced. (October 10, 2012)
The Nobel Prize in Physics for 2012 was awarded jointly to Serge Haroche, Collège de France, Paris, France, École Normale Supérieure, Paris, France, and David J. Wineland, National Institute of Standards and Technology, Boulder, CO, USA "for ground-breaking experimental methods that enable measuring and manipulation of individual quantum systems".
In summarising the very esoteric work the The Royal Swedish Academy of Sciences committee writes:
Serge Haroche and David J. Wineland have independently invented and developed methods for measuring and manipulating individual particles while preserving their quantum-mechanical nature, in ways that were previously thought unattainable.
[They] have opened the door to a new era of experimentation with quantum physics by demonstrating the direct observation of individual quantum particles without destroying them. For single particles of light or matter the laws of classical physics cease to apply and quantum physics takes over. But single particles are not easily isolated from their surrounding environment and they lose their mysterious quantum properties as soon as they interact with the outside world. Thus many seemingly bizarre phenomena predicted by quantum physics could not be directly observed, and researchers could only carry out thought experiments that might in principle manifest these bizarre phenomena.
Through their ingenious laboratory methods Haroche and Wineland together with
their research groups have managed to measure and control very fragile quantum
states, which were previously thought inaccessible for direct observation. The
new methods allow them to examine, control and count the particles.
Their methods have many things in common. David Wineland traps electrically
charged atoms, or ions, controlling and measuring them with light, or photons.
Serge Haroche takes the opposite approach: he controls and measures trapped
photons, or particles of light, by sending atoms through a trap.
Both
Laureates work in the field of quantum optics studying the fundamental
interaction between light and matter, a field which has seen considerable
progress since the mid-1980s. Their ground-breaking methods have enabled this
field of research to take the very first steps towards building a new type of
super fast computer based on quantum physics. Perhaps the quantum computer will
change our everyday lives in this century in the same radical way as the
classical computer did in the last century. The research has also led to the
construction of extremely precise clocks that could become the future basis for
a new standard of time, with more than hundred-fold greater precision than
present-day caesium clocks.
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The graphics below are taken from Particle control in a quantum world information designed for the Public
For the more detailed Scientific Background click here.