Polarization control of single photon quantum
... be achieved. A promising approach to this purpose is based on the properties of an optical device, named “q-plate”, that has been recently introduced both in the classical [17] and in the quantum domains [18]. The main feature of the q-plate is its capability of coupling the spinorial (polarization) ...
... be achieved. A promising approach to this purpose is based on the properties of an optical device, named “q-plate”, that has been recently introduced both in the classical [17] and in the quantum domains [18]. The main feature of the q-plate is its capability of coupling the spinorial (polarization) ...
Optimal Large-Scale Quantum State Tomography with Pauli
... estimate unknown matrices of high dimensions. Yet these methods do not fully account for the specific structure of quantum state tomography. As demonstrated in a pioneering article, Gross et al. (2010) argued that, when considering quantum measurements characterized by the Pauli matrices, the densit ...
... estimate unknown matrices of high dimensions. Yet these methods do not fully account for the specific structure of quantum state tomography. As demonstrated in a pioneering article, Gross et al. (2010) argued that, when considering quantum measurements characterized by the Pauli matrices, the densit ...
The Physical World as a Virtual Reality
... is not itself real, but it can signify what is. In physical realism, an observed physical reality somehow makes a conscious observer but in quantum realism a real observer makes a virtual reality. If solipsism is one player game, then quantum realism is a massively multi-player game, with every phot ...
... is not itself real, but it can signify what is. In physical realism, an observed physical reality somehow makes a conscious observer but in quantum realism a real observer makes a virtual reality. If solipsism is one player game, then quantum realism is a massively multi-player game, with every phot ...
Reflections on the deBroglie–Bohm Quantum Potential
... represented in Orthodox Quantum Theory by a (state) vector in an abstract, mathematical space. The state vector is assumed to contain all possible information about the system. Consequently, any questions relating to a quantum system that go beyond what can be found from the state vector are conside ...
... represented in Orthodox Quantum Theory by a (state) vector in an abstract, mathematical space. The state vector is assumed to contain all possible information about the system. Consequently, any questions relating to a quantum system that go beyond what can be found from the state vector are conside ...
![arXiv:1312.4758v2 [quant-ph] 10 Apr 2014](http://s1.studyres.com/store/data/021352507_1-d587dd4045ccae4ae6a47bb17173f358-300x300.png)
Introduction to Quantum Entanglement
... In 1935 Einstein, Podolsky and Rosen designed a thought experiment to demonstrate the incompleteness of quantum mechanics [1]. The presented thought experiment assumed the principle of locality and reality of quantum mechanics. The logic of the experiment of Einstein, Podolsky and Rosen was as follo ...
... In 1935 Einstein, Podolsky and Rosen designed a thought experiment to demonstrate the incompleteness of quantum mechanics [1]. The presented thought experiment assumed the principle of locality and reality of quantum mechanics. The logic of the experiment of Einstein, Podolsky and Rosen was as follo ...
Quantum Computing - Department of Computing
... of nature as it predicts quantum effects up to an astonishing precision of 14 decimal places. But we do not know why nature works like that and why quantum mechanics gives such a good description of nature. In other words, quantum mechanics tells us how things work but cannot tell us why they work t ...
... of nature as it predicts quantum effects up to an astonishing precision of 14 decimal places. But we do not know why nature works like that and why quantum mechanics gives such a good description of nature. In other words, quantum mechanics tells us how things work but cannot tell us why they work t ...
PDF
... Figure 2. Essential components of the singlet-state quantum communication system from figure 1. (a) Simplified atomic-level schematic diagram of the trapped rubidium atom quantum memory: A-to-B transition occurs when one photon from an entangled pair is absorbed; B-to-D transition is coherently driv ...
... Figure 2. Essential components of the singlet-state quantum communication system from figure 1. (a) Simplified atomic-level schematic diagram of the trapped rubidium atom quantum memory: A-to-B transition occurs when one photon from an entangled pair is absorbed; B-to-D transition is coherently driv ...
Wolfgang Ketterle Department of Physics Superfluidity and Coherence in Bose-Einstein Condensates
... Dissipation and turbulence in superfluid flow often involves the creation and subsequent motion of quantized vortices. Since vortices are topological defects they may only be created in pairs, or can enter a system individually from its boundary. The nucleation process has been a subject of much the ...
... Dissipation and turbulence in superfluid flow often involves the creation and subsequent motion of quantized vortices. Since vortices are topological defects they may only be created in pairs, or can enter a system individually from its boundary. The nucleation process has been a subject of much the ...
QUANTUM COMPUTING: AN OVERVIEW
... Quantum computing and quantum information processing are emerging disciplines in which the principles of quantum physics are employed to store and process information. We use the classical digital technology at almost every moment in our lives: computers, mobile phones, mp3 players, just to name a f ...
... Quantum computing and quantum information processing are emerging disciplines in which the principles of quantum physics are employed to store and process information. We use the classical digital technology at almost every moment in our lives: computers, mobile phones, mp3 players, just to name a f ...
