Scientists blast atoms with Fibonacci laser to make an 'extra' dimension of time
By Ben Turner
The technique could be used to protect quantum computer data from errors.
The new phase was made by firing lasers at 10 ytterbium ions inside a quantum computer. (Image credit: Jurik Peter via Shutterstock)
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By firing a Fibonacci laser pulse at atoms inside a quantum computer, physicists have created a completely new, strange phase of matter that behaves as if it had two dimensions of time.
The new phase of matter, created by using lasers to rhythmically jiggle a strand of 10 ytterbium ions, enables scientists to store information in a far more error-protected way, thereby opening the path to quantum computers that can hold on to data for a long time without becoming garbled. The researchers outlined their findings in a paper published July 20 in the journal Nature (opens in new tab).
The inclusion of a theoretical "extra" time dimension "is a completely different way of thinking about phases of matter," lead author Philipp Dumitrescu, a researcher at the Flatiron Institute's Center for Computational Quantum Physics in New York City, said in a statement. "I've been working on these theory ideas for over five years, and seeing them come actually to be realized in experiments is exciting."
https://www.livescience.com/fibonacci-material-with-two-dimensions-of-time?utm_campaign=368B3745-DDE0-4A69-A2E8-62503D85375D
Thanks to: https://www.livescience.com
By Ben Turner
The technique could be used to protect quantum computer data from errors.
The new phase was made by firing lasers at 10 ytterbium ions inside a quantum computer. (Image credit: Jurik Peter via Shutterstock)
[*]
By firing a Fibonacci laser pulse at atoms inside a quantum computer, physicists have created a completely new, strange phase of matter that behaves as if it had two dimensions of time.
The new phase of matter, created by using lasers to rhythmically jiggle a strand of 10 ytterbium ions, enables scientists to store information in a far more error-protected way, thereby opening the path to quantum computers that can hold on to data for a long time without becoming garbled. The researchers outlined their findings in a paper published July 20 in the journal Nature (opens in new tab).
The inclusion of a theoretical "extra" time dimension "is a completely different way of thinking about phases of matter," lead author Philipp Dumitrescu, a researcher at the Flatiron Institute's Center for Computational Quantum Physics in New York City, said in a statement. "I've been working on these theory ideas for over five years, and seeing them come actually to be realized in experiments is exciting."
https://www.livescience.com/fibonacci-material-with-two-dimensions-of-time?utm_campaign=368B3745-DDE0-4A69-A2E8-62503D85375D
Thanks to: https://www.livescience.com