| Título: | Anagrammatic Knowledge Kills Truth: Quantum World Is Also Simulated And Holographic |
| Autores: |
Kumar, K.N.P. Kiranagi, B.S . Sadananda, J.S. Murthy, S.K. Narasimha |
| Fecha: | 2013-02-28 |
| Publicador: | Advances in Physics Theories and Applications |
| Fuente: |
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| Tipo: |
info:eu-repo/semantics/article Peer-reviewed Article info:eu-repo/semantics/publishedVersion |
| Tema: | No aplica |
| Descripción: | Abstract: We give a consubstantiated and consolidated model for the items classified in the paper and discuss various aspectionalities and attributions of the system as stability analysis, Solutional behaviour, and asymptotic analysis. Concomitant theorems are derived. Physical interpretation is provided according to, agnate, akin to situational significance wherever possible and explanations in abstract philosophical points of view are expatiated, notwithstanding the appalling task of the expatiation at some points. We hope more erudite scholars would fill in the blanks with redoubtable, illustrious, imminent puissance. Character constitution and predicational anteriorities are also specified at various points where it was deemed necessary. In literature Hyper entanglement-assisted Bell-state analysis (S. P. Walborn S. P´adua and C. H. Monken) propose a simple scheme for complete Bell-state measurement of photons using hyper entangled states - entangled in multiple degrees of freedom. In addition to hyper entanglement, this requires only linear optics and single photon detectors, and is realizable with current technology. At the cost of additional classical communication Bell-state measurement can be implemented nonlocally possible application of these results to quantum dense coding and quantum teleportation are also done. Decoherence Bounds on Quantum Computation with Trapped Ions (Richard J. Hughes et al) used simple physical arguments to investigate the capabilities of a quantum computer based on cold trapped ions. From the limitations imposed on such a device by spontaneous decay, laser phase coherence, ion heating and other sources of error, they derive a bound between the number of laser interactions and the number of ions that may be used. The largest number which may be factored using a variety of species of ion is determined. Our concentration is manifold in consideration to the variety of scheme and doxa of multifarious subject matter involved. www.iiste.org/PDFshare/APTA-PAGENO-48160-56324.pdf |
| Idioma: | No aplica |