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... Gaussian probability with standard deviation Dx. The Heisenberg uncerimportant benchmarks for the qual- tainty relation states that when simultaneously measuring incompatible proportional to 1/ N . This is a ity of a measurement, and they observables such as position x and momentum p, the product of ...
... Gaussian probability with standard deviation Dx. The Heisenberg uncerimportant benchmarks for the qual- tainty relation states that when simultaneously measuring incompatible proportional to 1/ N . This is a ity of a measurement, and they observables such as position x and momentum p, the product of ...
Quantum State Transfer via Noisy Photonic and Phononic Waveguides
... cavity decoupled from the waveguide [44]. (ii) With atomic qubits decoupled from cavities, we transfer the photon superposition state to the second cavity as above [45]. (iii) We perform the time-inverse of step (i) in the second node. This QST protocol generalizes to several atoms as a quantum regi ...
... cavity decoupled from the waveguide [44]. (ii) With atomic qubits decoupled from cavities, we transfer the photon superposition state to the second cavity as above [45]. (iii) We perform the time-inverse of step (i) in the second node. This QST protocol generalizes to several atoms as a quantum regi ...
Quantum Interaction Approach in Cognition, Artificial Intelligence
... present paper we instead focus on the application of quantum structures to semantic analysis, artificial intelligence and robotics. More specifically, we summarize in Sec. II the main results that have been obtained by one of us in quantum cognition, including the hypothesis about the existence of a ...
... present paper we instead focus on the application of quantum structures to semantic analysis, artificial intelligence and robotics. More specifically, we summarize in Sec. II the main results that have been obtained by one of us in quantum cognition, including the hypothesis about the existence of a ...
The Quantum Circuit Model and Universal Quantum Computation
... there are. For example there are computer models called hypercomputation which explicitly compute non-Turingcomputable functions. But we call these models not reasonable because I know of no way to physically construct these devices (although certainly some have tried.) The lesson, of course, is tha ...
... there are. For example there are computer models called hypercomputation which explicitly compute non-Turingcomputable functions. But we call these models not reasonable because I know of no way to physically construct these devices (although certainly some have tried.) The lesson, of course, is tha ...
What quantum computers may tell us about quantum mechanics
... mechanics. Schrödinger (1935) himself said, “I would not call [entanglement] one but rather the characteristic trait in quantum mechanics, the one that enforces an entire departure from all our classical lines of thought.” Yet entanglement seems to be one of the most misunderstood concepts in quant ...
... mechanics. Schrödinger (1935) himself said, “I would not call [entanglement] one but rather the characteristic trait in quantum mechanics, the one that enforces an entire departure from all our classical lines of thought.” Yet entanglement seems to be one of the most misunderstood concepts in quant ...
Optimal quantum cloning of orbital angular momentum photon
... guishable. If the two photons are made distinguishable by their internal quantum state, for example encoded in the polarization π or in other degrees of freedom, the coalescence effect vanishes. Now, if one of the two photons involved in the process is in a given input state to be cloned and the othe ...
... guishable. If the two photons are made distinguishable by their internal quantum state, for example encoded in the polarization π or in other degrees of freedom, the coalescence effect vanishes. Now, if one of the two photons involved in the process is in a given input state to be cloned and the othe ...
200 Beryllium Ions Entangled
... the ions were not entangled, but rather behaving independently. The team then looked closely at the quantum fluctuations in the system and was able to show that the entangled states they created were "spin-squeezed states". This means that the quantum uncertainty in the measurement of the combined s ...
... the ions were not entangled, but rather behaving independently. The team then looked closely at the quantum fluctuations in the system and was able to show that the entangled states they created were "spin-squeezed states". This means that the quantum uncertainty in the measurement of the combined s ...
Exploring Quantum Physics with Superconducting Circuits
... How to Operate Circuits in the Quantum Regime? control circuit ...
... How to Operate Circuits in the Quantum Regime? control circuit ...