Quantum Channels - Institut Camille Jordan
... let them evolve along any unitary evolution, finally look at the resulting state for H. Translating this in a more mathematical langage, we are given a state ω on K, a unitary operator U on H ⊗ K. Given any initial state ρ on H, we couple the system H to K so that to obtain the state ρ ⊗ ω. After th ...
... let them evolve along any unitary evolution, finally look at the resulting state for H. Translating this in a more mathematical langage, we are given a state ω on K, a unitary operator U on H ⊗ K. Given any initial state ρ on H, we couple the system H to K so that to obtain the state ρ ⊗ ω. After th ...
Theory of Brain Function, Quantum Mechanics and Superstrings
... of brain function a titanic struggle. Nevertheless, we ought to try to figure out, as explicitly as possible, as detailed as possible, and as predictive as possible, what are the most fundamental brain constituents and how they interact, so that they eventually produce this miracle that is called br ...
... of brain function a titanic struggle. Nevertheless, we ought to try to figure out, as explicitly as possible, as detailed as possible, and as predictive as possible, what are the most fundamental brain constituents and how they interact, so that they eventually produce this miracle that is called br ...
APPENDIX A
... in a given interaction. In different terms, as one furnishes the necessary amount of energy to the entity, to get it off the bond, it is engaged in, it is essentially, the rest relativistic energy which would pile it up. Then the rest relativistic energy, due to the relativistic law of energy conser ...
... in a given interaction. In different terms, as one furnishes the necessary amount of energy to the entity, to get it off the bond, it is engaged in, it is essentially, the rest relativistic energy which would pile it up. Then the rest relativistic energy, due to the relativistic law of energy conser ...
Publications
... F.Acernese et al. (The Virgo Coll.) Measurement of the optical parameters of the Virgo interferometer Applied optics Vol. 46, No. 17 10 June 2007 F.Acernese et al. (The Virgo Coll.) Status of Virgo detector Classical and Quantum Gravity 24:S381-S388, 2007 F.Acernese et al. (The Virgo Coll.) Analysis ...
... F.Acernese et al. (The Virgo Coll.) Measurement of the optical parameters of the Virgo interferometer Applied optics Vol. 46, No. 17 10 June 2007 F.Acernese et al. (The Virgo Coll.) Status of Virgo detector Classical and Quantum Gravity 24:S381-S388, 2007 F.Acernese et al. (The Virgo Coll.) Analysis ...
The Problem of Confirmation in the Everett Interpretation
... virtually untenable if we accept a functionalist account of consciousness. Moreoever, the story works only if the post-duplication organism not inhabited by the Cartesian Ego is not conscious at all: we cannot accept that it is conscious in the absence of an Ego, or that a second Ego is created for ...
... virtually untenable if we accept a functionalist account of consciousness. Moreoever, the story works only if the post-duplication organism not inhabited by the Cartesian Ego is not conscious at all: we cannot accept that it is conscious in the absence of an Ego, or that a second Ego is created for ...
Last Time…
... In an atom with many electrons, only one electron is allowed in each quantum state (n,l,ml,ms). Atoms with many electrons have many atomic orbitals filled. Chemical properties are determined by the configuration of the ‘outer’ electrons. ...
... In an atom with many electrons, only one electron is allowed in each quantum state (n,l,ml,ms). Atoms with many electrons have many atomic orbitals filled. Chemical properties are determined by the configuration of the ‘outer’ electrons. ...
Two Provers in Isolation
... the attack. Furthermore, the above assertion of BGKW can be interpreted as a prescription to the verifier that he should make sure not to help the provers to communicate while interacting with him. Again, this prescription would not prevent him from acting like the black-box we exhibit. Thus, a stro ...
... the attack. Furthermore, the above assertion of BGKW can be interpreted as a prescription to the verifier that he should make sure not to help the provers to communicate while interacting with him. Again, this prescription would not prevent him from acting like the black-box we exhibit. Thus, a stro ...
A Quantum Query Expansion Approach for Session Search
... complex Hilbert space, allowing measurement of observables as relevance status of information objects, probability calculation via the trace formula in Gleason’s Theory [13], logical reasoning through lattice structures, and modeling the change of states via evolution operators [1]. Following van Ri ...
... complex Hilbert space, allowing measurement of observables as relevance status of information objects, probability calculation via the trace formula in Gleason’s Theory [13], logical reasoning through lattice structures, and modeling the change of states via evolution operators [1]. Following van Ri ...
Quantum teleportation
Quantum teleportation is a process by which quantum information (e.g. the exact state of an atom or photon) can be transmitted (exactly, in principle) from one location to another, with the help of classical communication and previously shared quantum entanglement between the sending and receiving location. Because it depends on classical communication, which can proceed no faster than the speed of light, it cannot be used for faster-than-light transport or communication of classical bits. It also cannot be used to make copies of a system, as this violates the no-cloning theorem. While it has proven possible to teleport one or more qubits of information between two (entangled) atoms, this has not yet been achieved between molecules or anything larger.Although the name is inspired by the teleportation commonly used in fiction, there is no relationship outside the name, because quantum teleportation concerns only the transfer of information. Quantum teleportation is not a form of transportation, but of communication; it provides a way of transporting a qubit from one location to another, without having to move a physical particle along with it.The seminal paper first expounding the idea was published by C. H. Bennett, G. Brassard, C. Crépeau, R. Jozsa, A. Peres and W. K. Wootters in 1993. Since then, quantum teleportation was first realized with single photons and later demonstrated with various material systems such as atoms, ions, electrons and superconducting circuits. The record distance for quantum teleportation is 143 km (89 mi).