entanglement properties of quantum many
... is nonseparable and therefore entangled if and only if it is not decomposable as a mixture of product states. Exchange correlations in Fermi and Bose ground states do not contribute to entanglement as a useful resource [16-19]; accordingly, a state described by a single Slater determinant or perman ...
... is nonseparable and therefore entangled if and only if it is not decomposable as a mixture of product states. Exchange correlations in Fermi and Bose ground states do not contribute to entanglement as a useful resource [16-19]; accordingly, a state described by a single Slater determinant or perman ...
Excerpt. - Dover Publications
... was the most powerful. The dragon was struck down. At that time there was a dragon still living and it had to be destroyed; this was not obvious to all scientists, as we can infer from the following quotation [188]: “The present paper … is addressed to those who do find the question interesting, and ...
... was the most powerful. The dragon was struck down. At that time there was a dragon still living and it had to be destroyed; this was not obvious to all scientists, as we can infer from the following quotation [188]: “The present paper … is addressed to those who do find the question interesting, and ...
Investigating incompatibility: How to reconcile complementarity with EPR C
... And there are several types more. The discrepancy between the structure of Complementarity in Bohr’s reply to EPR as opposed to its structure in Bohr’s standard doctrine I have presented at length in several works of mine already, (4,5, 6,7) and I will not repeat here. What I will do, instead, is to ...
... And there are several types more. The discrepancy between the structure of Complementarity in Bohr’s reply to EPR as opposed to its structure in Bohr’s standard doctrine I have presented at length in several works of mine already, (4,5, 6,7) and I will not repeat here. What I will do, instead, is to ...
polarized quantum states
... respect to permutation of the vertical and horizontal directions). It has no classical counterpart. For all even total photon numbers such states exist. ...
... respect to permutation of the vertical and horizontal directions). It has no classical counterpart. For all even total photon numbers such states exist. ...
The Universal Uncertainty Principle v1
... no need to introduce any additional physical concepts or postulates. In a second paper entitled “The Size of Fundamental Particles”, I applied the same principle again to calculate the diameter of the electron. As a result the size of the electron turned out to be smaller than 10.166 times the Planc ...
... no need to introduce any additional physical concepts or postulates. In a second paper entitled “The Size of Fundamental Particles”, I applied the same principle again to calculate the diameter of the electron. As a result the size of the electron turned out to be smaller than 10.166 times the Planc ...
Phys. Rev. Lett. 98, 070602
... topological phase is destroyed through a KosterlitzThouless transition at a dissipation strength of order one. In quantum information language the ground states in different topological sectors are the basis states of an encoded quantum memory. Quasiparticle excitations are states outside of the cod ...
... topological phase is destroyed through a KosterlitzThouless transition at a dissipation strength of order one. In quantum information language the ground states in different topological sectors are the basis states of an encoded quantum memory. Quasiparticle excitations are states outside of the cod ...
Quantum computing Markus Kiili Opinnäytetyö
... A quantum computer stores data in qubits instead of classical bits. This chapter covers the basics of quantum mechanics, so the reader can understand what qubits are and what operations can be performed on qubits. Different computational models are reviewed and the basic logical processes are explai ...
... A quantum computer stores data in qubits instead of classical bits. This chapter covers the basics of quantum mechanics, so the reader can understand what qubits are and what operations can be performed on qubits. Different computational models are reviewed and the basic logical processes are explai ...
Modeling and Control of Quantum Systems: An Introduction
... to face some difficult choices. We opted for a selection of topics that can be presented to a control engineering audience avoiding long technical detours, and that in part complement other introductory material available e.g. in [9], [47], [48], [30], [49], [50], [8]. We chose not to describe any p ...
... to face some difficult choices. We opted for a selection of topics that can be presented to a control engineering audience avoiding long technical detours, and that in part complement other introductory material available e.g. in [9], [47], [48], [30], [49], [50], [8]. We chose not to describe any p ...
How to Construct Quantum Random Functions
... pseudorandom function (PRF) as a function PRF with the following property: no efficient classical algorithm, when given oracle access to PRF, can distinguish PRF from a truly random function. They then construct such a pseudorandom function from pseudorandom generators. Since then, pseudorandom func ...
... pseudorandom function (PRF) as a function PRF with the following property: no efficient classical algorithm, when given oracle access to PRF, can distinguish PRF from a truly random function. They then construct such a pseudorandom function from pseudorandom generators. Since then, pseudorandom func ...
arXiv:1605.02181v1 [quant
... Teleportation [1] is arguably the most important discovery in quantum information. Teleportation enables the transfer of a quantum state of a system in one site to a system in a remote site. Teleportation requires a connection between the sites: an entanglement channel and a classical channel in whi ...
... Teleportation [1] is arguably the most important discovery in quantum information. Teleportation enables the transfer of a quantum state of a system in one site to a system in a remote site. Teleportation requires a connection between the sites: an entanglement channel and a classical channel in whi ...
Decoherence of a Quantum Bit Circuit
... Two main strategies based on quantum states of either single particles or of a whole circuit, have been followed for making solid-state electrical qubits. In the first strategy, the quantum states are nuclear spin states, single electron spin states, or single electron orbital states. The advantage ...
... Two main strategies based on quantum states of either single particles or of a whole circuit, have been followed for making solid-state electrical qubits. In the first strategy, the quantum states are nuclear spin states, single electron spin states, or single electron orbital states. The advantage ...
Fractionalization, Topological Order, and
... emergence of a collective excitation having fractional quantum numbers with respect to the elementary particles (such as electrons), in a strongly correlated system. The notion of fractionalization is not only fascinating in itself, but also has been related to other intriguing concepts in theoretic ...
... emergence of a collective excitation having fractional quantum numbers with respect to the elementary particles (such as electrons), in a strongly correlated system. The notion of fractionalization is not only fascinating in itself, but also has been related to other intriguing concepts in theoretic ...
