Quantum Information with Fermionic Gaussian States - Max
... A.4 Port-based teleportation . . . . . . . . A.4.1 Example: POVM measurement Bibliography ...
... A.4 Port-based teleportation . . . . . . . . A.4.1 Example: POVM measurement Bibliography ...
Spin squeezing and quantum correlations
... Any normalized spin-s state jψ i of the form (4) is, in general, specified by 4s real independent parameters. The oriented states described above are specified at the most by the three independent Euler angles α ; β and γ . Since 4s > 3, for s 1, there exist states which are not oriented. In other ...
... Any normalized spin-s state jψ i of the form (4) is, in general, specified by 4s real independent parameters. The oriented states described above are specified at the most by the three independent Euler angles α ; β and γ . Since 4s > 3, for s 1, there exist states which are not oriented. In other ...
Physics at the FQMT`11 conference
... processes during experiments on nano-size systems which must be, due to their contacts, understood as open systems. These transients, switching-on or off processes, generally start from highly non-equilibrium quantum initial states. The proper understanding of formulation of the initial state (i.e. ...
... processes during experiments on nano-size systems which must be, due to their contacts, understood as open systems. These transients, switching-on or off processes, generally start from highly non-equilibrium quantum initial states. The proper understanding of formulation of the initial state (i.e. ...
Silicon nanophotonics for scalable quantum coherent feedback
... [], on-chip quantum nonlinear optics is still in its infancy. The primary obstacle to realizing high quality nonlinearities for quantum optics on the silicon photonics platform is the need to overcome the deleterious processes that accompany advantageous nonlinear processes such as four-wave mixin ...
... [], on-chip quantum nonlinear optics is still in its infancy. The primary obstacle to realizing high quality nonlinearities for quantum optics on the silicon photonics platform is the need to overcome the deleterious processes that accompany advantageous nonlinear processes such as four-wave mixin ...
Fractional quantum Hall effect in suspended graphene probed with
... Although, at present, reliable Hall-bar measurements are not feasible in SG, it is still possible, as we show in the next section, to obtain the Hall conductance on QH plateaus as well as the longitudinal conductivity, sxx , from a two-terminal conductance (G) measurement, where the leads completely ...
... Although, at present, reliable Hall-bar measurements are not feasible in SG, it is still possible, as we show in the next section, to obtain the Hall conductance on QH plateaus as well as the longitudinal conductivity, sxx , from a two-terminal conductance (G) measurement, where the leads completely ...
Spin and Quantum Measurement
... about the system. We have chosen the particular simplified schematic representation of SternGerlach experiments shown in Fig. 1.2 because it is the same representation used in the SPINS software program that you may use to simulate these experiments. The SPINS program allows you to perform all the e ...
... about the system. We have chosen the particular simplified schematic representation of SternGerlach experiments shown in Fig. 1.2 because it is the same representation used in the SPINS software program that you may use to simulate these experiments. The SPINS program allows you to perform all the e ...
Duncan-Dunne-LINCS-2016-Interacting
... Remark 2.9. We note that all of these PROPs also have “semantic” presentations: M to equivalent to FinSet, the skeletal category of finite sets and functions, while B and F are equivalent to Span(FinSet) and Cospan(FinSet) respectively. See [28] and [25]. The spider theorem is equivalent to this las ...
... Remark 2.9. We note that all of these PROPs also have “semantic” presentations: M to equivalent to FinSet, the skeletal category of finite sets and functions, while B and F are equivalent to Span(FinSet) and Cospan(FinSet) respectively. See [28] and [25]. The spider theorem is equivalent to this las ...
Solid Helium-4: A Supersolid?
... Supersolid = Solid with Superfluid Properties Introduction: Solids - Quantum or Otherwise Living in the Past This is the Moment Days of Future Passed ...
... Supersolid = Solid with Superfluid Properties Introduction: Solids - Quantum or Otherwise Living in the Past This is the Moment Days of Future Passed ...
Quantum Fields on Noncommutative Spacetimes: gy ?
... It extends to CP by linearity. But (2.4) is not the only possible choice. The idea proposed in [5, 6, 7] is that we can assume a different coproduct on CP, that is “twisted” or deformed with respect to ∆0 , to modify the action of the Poincaré group on tensor product spaces in such a way that it do ...
... It extends to CP by linearity. But (2.4) is not the only possible choice. The idea proposed in [5, 6, 7] is that we can assume a different coproduct on CP, that is “twisted” or deformed with respect to ∆0 , to modify the action of the Poincaré group on tensor product spaces in such a way that it do ...
Contextualizing Concepts using a Mathematical Generalization of
... contains knowledge concerning both which variables or measurements are relevant, and the values obtained for them. This does seem to be a step toward a richer understanding of concept representation, though many limitations have been pointed out (see for example Komatsu 1992, Fodor 1994, Rips 1995). ...
... contains knowledge concerning both which variables or measurements are relevant, and the values obtained for them. This does seem to be a step toward a richer understanding of concept representation, though many limitations have been pointed out (see for example Komatsu 1992, Fodor 1994, Rips 1995). ...
Aspects of the Quantum Hall Effect
... They found, in addition to the integer plateaus, additional steps in the Hall resistance at fractional values of the filling factor, at ν = 13 , 51 and so on. The theoretical obstacle to explaining these features was stark and immediate: when ν < 1, there are more available degenerate electronic sta ...
... They found, in addition to the integer plateaus, additional steps in the Hall resistance at fractional values of the filling factor, at ν = 13 , 51 and so on. The theoretical obstacle to explaining these features was stark and immediate: when ν < 1, there are more available degenerate electronic sta ...
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).