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Quantum in sentence

377 examples of Quantum in a sentence

Secondly, quantum technologies could also transform health care and medicine.
For example, the design and analysis of molecules for drug development is a challenging problem today, and that's because exactly describing and calculating all of the quantum properties of all the atoms in the molecule is a computationally difficult task, even for our supercomputers.
But a quantum computer could do better, because it operates using the same quantum properties as the molecule it's trying to simulate.
So future large-scale quantum simulations for drug development could perhaps lead to treatments for diseases like Alzheimer's, which affects thousands of lives.
And thirdly, my favorite quantum application is teleportation of information from one location to another without physically transmitting the information.
Sounds like sci-fi, but it is possible, because these fluid identities of the quantum particles can get entangled across space and time in such a way that when you change something about one particle, it can impact the other, and that creates a channel for teleportation.
It's already been demonstrated in research labs and could be part of a future quantum internet.
We don't have such a network as yet, but my team is working on these possibilities, by simulating a quantum network on a quantum computer.
So it's a lot of fun for me, being a quantum physicist.
We get to be explorers in a quantum wonderland.
We must tread carefully and responsibly as we build our quantum future.
And for me, personally, I don't see quantum physics as a tool just to build quantum computers.
I see quantum computers as a way for us to probe the mysteries of nature and reveal more about this hidden world outside of our experiences.
But indeed, the laws of quantum mechanics can be written down on a napkin, and yet they govern all of chemistry, all of life, all of history.
I do now, after learning about all the quantum stuff.
Unlike us, a hyperintelligent coral would be uniquely prepared to understand quantum mechanics.
The mathematics of quantum mechanics very accurately describes how our universe works.
The mathematics of quantum mechanics tells us this is how the world works at tiny scales.
That's quantum mechanics.
Together with quantum mechanics, the geometry of this shape could describe everything about how the universe works at the tiniest scales.
Joined with quantum mechanics, this mathematics describes our universe as a growing E8 coral, with particles interacting at every location in all possible ways according to a beautiful pattern.
The reason it's got a few people at least excited is because, if you're right, it brings gravity and quantum theory together.
So the way these things are explained in quantum field theory is, all possibilities are expanding and developing at once.
It was begun with the invention of relativity theory and quantum theory.
And merging them together to make the final quantum theory of space and time and gravity, is the culmination of that, something that’s going on right now.
So this is general relativity, this is quantum theory.
At the same time, we physicists have been busy trying to make sense of and build on and integrate the discoveries of quantum theory and relativity.
SD: Black holes really are the central mystery of our age, because that's where the quantum world and the gravitational world come together.
Hawking radiation, as it came to be known, is based on a well-established phenomenon called quantum fluctuations of the vacuum.
According to quantum mechanics, a given point in spacetime fluctuates between multiple possible energy states.
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