Superconducting Circuits and Quantum Computation
... We have demonstrated Mach-Zehnder (MZ)-type interferometry with a niobium superconducting persistent-current qubit. These experiments exhibit remarkable agreement with theory, and they will find application to non-adiabatic qubit control methods. The qubit is an artificial atom, the ground and first ...
... We have demonstrated Mach-Zehnder (MZ)-type interferometry with a niobium superconducting persistent-current qubit. These experiments exhibit remarkable agreement with theory, and they will find application to non-adiabatic qubit control methods. The qubit is an artificial atom, the ground and first ...
Wave-Particle Duality and Uncertainty Principle: Phenomenographic
... challenges when they first learn about the probabilistic features and non-local theory of quantum mechanics, which disallows any classical interpretation [12-13]. Students’ problems in learning quantum mechanics are widespread and may originate from many other sources [2]. To overcome this problem, ...
... challenges when they first learn about the probabilistic features and non-local theory of quantum mechanics, which disallows any classical interpretation [12-13]. Students’ problems in learning quantum mechanics are widespread and may originate from many other sources [2]. To overcome this problem, ...
Quantum Operating Systems - Henry Corrigan
... orchestrate the quantum computation on the qFPGA by applying each quantum gates to the qFPGA’s state registers in sequence. The qFPGA would then send the output C(xi ) of the circuit applied to xi back to the CPU. The inputs xi and the output C(xi ) would both be classical bitstrings, so the CPU and ...
... orchestrate the quantum computation on the qFPGA by applying each quantum gates to the qFPGA’s state registers in sequence. The qFPGA would then send the output C(xi ) of the circuit applied to xi back to the CPU. The inputs xi and the output C(xi ) would both be classical bitstrings, so the CPU and ...
The Physical Implementation of Quantum Computation David P. DiVincenzo
... will be too slow for the needs of error correction and a “conveyor belt” scheme would be required. Cooling by projection, in which the Hamiltonian of the system and its environment are necessarily perturbed strongly, will have a time scale dependent on the details of the setup, but potentially much ...
... will be too slow for the needs of error correction and a “conveyor belt” scheme would be required. Cooling by projection, in which the Hamiltonian of the system and its environment are necessarily perturbed strongly, will have a time scale dependent on the details of the setup, but potentially much ...
The Uncertainty Principle
... We believe we have gained anschaulich understanding of a physical theory, if in all simple cases, we can grasp the experimental consequences qualitatively and see that the theory does not lead to any contradictions. Heisenberg, 1927, p. 172) His goal was, of course, to show that, in this new sense o ...
... We believe we have gained anschaulich understanding of a physical theory, if in all simple cases, we can grasp the experimental consequences qualitatively and see that the theory does not lead to any contradictions. Heisenberg, 1927, p. 172) His goal was, of course, to show that, in this new sense o ...
QUANTUM COMPUTING: AN OVERVIEW
... Quantum mechanics was discovered roughly a century ago [5–10]. In spite of its long history, the interpretation of the wave function remains an open question. Here we adopt the most popular one, called the Copenhagen interpretation. A 1 A pure state in quantum mechanics is represented by a normalize ...
... Quantum mechanics was discovered roughly a century ago [5–10]. In spite of its long history, the interpretation of the wave function remains an open question. Here we adopt the most popular one, called the Copenhagen interpretation. A 1 A pure state in quantum mechanics is represented by a normalize ...
and quantum properties - Hal-SHS
... probability for this state. Such a formulation avoids (and even rejects) the association of a definite physical quantity to a given system, except for quantities obeying a superselection condition (corresponding to one unique value determination) : a quantum system can only have a probability for a ...
... probability for this state. Such a formulation avoids (and even rejects) the association of a definite physical quantity to a given system, except for quantities obeying a superselection condition (corresponding to one unique value determination) : a quantum system can only have a probability for a ...
A model of quantum reality
... showing particle-‐ or wave-‐like behavior would depend on a causally disconnected choice. It is therefore suggestive to abandon such pictures altogether.1 In fact, this is just one of many experi ...
... showing particle-‐ or wave-‐like behavior would depend on a causally disconnected choice. It is therefore suggestive to abandon such pictures altogether.1 In fact, this is just one of many experi ...
