Gravitation and quantum interference experiments with neutrons
... bounces off. The task is to study the dynamics of such a quantum bouncing ball, i.e. the measurement of the time evolution of a coherent superposition of quantum states performing quantum reflections [2–4]. In 2002, an experiment showed that it is possible to populate discrete energy levels in the g ...
... bounces off. The task is to study the dynamics of such a quantum bouncing ball, i.e. the measurement of the time evolution of a coherent superposition of quantum states performing quantum reflections [2–4]. In 2002, an experiment showed that it is possible to populate discrete energy levels in the g ...
Optimal quantum cloning of orbital angular momentum photon
... working principle is based on the spin-to-orbital optical angular momentum conversion process taking place in the so-called q-plates 3 . As we work in a bidimensional subspace of the orbital angular momentum, it is possible to construct a “Poincaré” (or Bloch) sphere for representing the state of a ...
... working principle is based on the spin-to-orbital optical angular momentum conversion process taking place in the so-called q-plates 3 . As we work in a bidimensional subspace of the orbital angular momentum, it is possible to construct a “Poincaré” (or Bloch) sphere for representing the state of a ...
High performance quantum computing
... cluster is simulated time, the arrangement of algorithmic qubits forms an effective Linear Nearest Neighbour (LNN) network. Therefore, if multiple users are sharing a common 2D cluster state, they could not interact data with each other or with a central resource core without transporting quantum in ...
... cluster is simulated time, the arrangement of algorithmic qubits forms an effective Linear Nearest Neighbour (LNN) network. Therefore, if multiple users are sharing a common 2D cluster state, they could not interact data with each other or with a central resource core without transporting quantum in ...
- Philsci
... On a realist construal of quantum mechanics, the quantum state determines the truthvalues of claims about macroscopic objects. But what precisely is the connection between quantum mechanical descriptions and ordinary language descriptions of objects? The connection suggested by a literal-minded read ...
... On a realist construal of quantum mechanics, the quantum state determines the truthvalues of claims about macroscopic objects. But what precisely is the connection between quantum mechanical descriptions and ordinary language descriptions of objects? The connection suggested by a literal-minded read ...
Mutually unbiased bases, orthogonal Latin squares, and hidden
... PACS number共s兲: 03.65.Ta, 02.10.Ox ...
... PACS number共s兲: 03.65.Ta, 02.10.Ox ...
quantum teleportation
... people. Quantum teleportation, is not some freaky future image, but a technique studied and brought into practice by several research groups. To explain the concept of quantum teleportation, a closer look shall be taken on the scientific debates of the early 20th century. In the 1920’s Einstein was ...
... people. Quantum teleportation, is not some freaky future image, but a technique studied and brought into practice by several research groups. To explain the concept of quantum teleportation, a closer look shall be taken on the scientific debates of the early 20th century. In the 1920’s Einstein was ...
Document
... A quantum computer engineer needs to detect this entanglement as a way to benchmark or debug the processor. ...
... A quantum computer engineer needs to detect this entanglement as a way to benchmark or debug the processor. ...
PEPS, matrix product operators and the Bethe ansatz
... very well conditioned and can be solved using DMRG-like sweeping! – Core method for simulating PEPS – The error in the approximation is known exactly! – Leads to a massively parallel time evolution algorithm that does not ...
... very well conditioned and can be solved using DMRG-like sweeping! – Core method for simulating PEPS – The error in the approximation is known exactly! – Leads to a massively parallel time evolution algorithm that does not ...
