How quantum computers work | Cătălina Curceanu | TEDxCluj

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Atoms behave quite strange. But we have a theory about that now. The quantum theory. Anyone who is not shocked by it, does not understand it. But why does this matter? The quantum computers can help us fight the problems we face today. By exploring how nature and the universe work.
Cătălina Curceanu is a researcher of “impossible atoms” As Head Researcher of the National Institute of Nuclear Physics, she deals with the planning and management of experiments of nuclear and hadronic physics in Italy’s National Laboratories of Gran Sasso.
As the 2016 prize recipient of the “Women in Physics Lecturer” awarded by the Australian Institute of Physics, she received her doctorate in research in the field of spectroscopic meson physics in the OBELIX (CERN) experiment. For this work, she received the prestigious, scientific prize awarded by the Romanian Academy in Rome.
Cătălina Curceanu is a researcher of “impossible atoms” As Head Researcher of the National Institute of Nuclear Physics, she deals with the planning and management of experiments of nuclear and hadronic physics in Italy’s National Laboratories of Gran Sasso.

As the 2016 prize recipient of the “Women in Physics Lecturer” awarded by the Australian Institute of Physics, she received her doctorate in research in the field of spectroscopic meson physics in the OBELIX (CERN) experiment. For this work, she received the prestigious, scientific prize awarded by the Romanian Academy in Rome.

Cătălina Curceanu is a researcher of “impossible atoms” As Head Researcher of the National Institute of Nuclear Physics, she deals with the planning and management of experiments of nuclear and hadronic physics in Italy’s National Laboratories of Gran Sasso.

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Комментарии
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The musical accompaniment was beautiful and a great compliment!

Kobe
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very well presented, thank you mrs Catalina

pomegranade
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Your AWESOME! Remember that your super position is interchangeable and can be used no matter what state or position it is in. Trying to utilize a two state theory in a multiple state environment. This two dimensional approach can be expanded to three dimensions by creating a cubed cubit chip utilizing multiphasic waveform computations. Stacking your cubits layer by layer until cubed. In this way no matter what position (State) your cubit is in its' opposite is a one or a zero. Think of 360º and then put that into a plotted spherical pattern or matrix. Now you can increase your data output according to the number of plotted positions contained in your sphere in an instant. This would require several plots to be used, intermixed, for record keeping between computations. Think of using a virtual computer program instead of hardware for computational throughput. 
I have wondered about using resonant frequencies to control quantum particles. Each quantum particle has its' own specific frequency. Using a vectored frequency output to lock a quantum particles position. Excellent Talk. Thanks, Phil

noyourtheman
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I'm a beginner for quantum computers can anyone refer a best book for quantum teleportation and no deletion

nancy
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I did not like the music, maybe it is just me. Music takes the topic and dematerilizes everything for me, breaks my focus. I'm all for it when there is music in dcumentaries like Cosmos but in a tiny presentation like this this feels incoherent, unfocusing, and insincere. Other than the music i like how this is explained, Professor was most impressive. Music just makes it hard to get 7 minutes mark.

muriyu
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What an awful B.S., she literally explained NOTHING.

rimdig
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Russian classical music? Give me a break....

allenbrininstool