Quantum Information Processing Using the Exchange Interaction

Majumdar, Mrittunjoy Guha

doi:10.4236/jqis.2018.84010

Cited by 8 publications

(3 citation statements)

References 65 publications

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“…It should be noted that in the literature there are a huge number of articles devoted to the search for quantum means of information transmission [48] [49]. But they are all based on classical quantum mechanics, on the mixing of psi-functions.…”

Section: Discussionmentioning

confidence: 99%

Theory of Byuon and Pharmaceuticals of the Future

Baurov¹

2022

OJM

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The article considers the quantum information channel (QIC) described by the byuon theory (BT)-the theory of the appearance of the world around us: physical space, the world of ultimate particles, living matter etc., based on the interaction of non-observable objects (the byuons) nature. The information transporter in the QIC is object 4b (four contact interaction of the four vacuum states of the byuon), carrying information about the information image of the object in physical space-a quantum medium formed by objects 4b. The article proposes a hypothetical model explaining the effects of ultra-high dilutions of chemical and biological substances (UHDS), the search for the physical nature of the action of which is currently underway. UHDS could be the base of the pharmaceutical industry of the future.

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Section: Discussionmentioning

confidence: 99%

Theory of Byuon and Pharmaceuticals of the Future

Baurov¹

2022

OJM

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“…With increase in θ we can see a decrease in the value of negativity. These numerical plots are obtained using the initial state given in equation (7). In the inset we show the effect of noise on N F−Pos by introducing depolarizing channel on the polarization degree of freedom.…”

Section: The Modelmentioning

confidence: 99%

“…Entanglement has been the underlying resource for various quantum mechanical applications. Entanglement across and within varied degrees of freedom quantum particle has been even more useful in optimizing the number of physical qubits and the logical quantum mechanical operations and applications one can undertake with it [1][2][3][4][5][6][7]. When it comes to photonic qubits, we have had hyperentanglement across various degrees of freedom: polarization-path [8], polarization-OAM [9], polarization-frequency [10,11] as well as polarizationtime bin [12,13].…”

Section: Introductionmentioning

confidence: 99%

Polarization-path-frequency entanglement using interferometry and frequency shifters

Majumdar¹,

Chandrashekar²

2022

J. Phys. B: At. Mol. Opt. Phys.

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Higher dimensional Hilbert space along with ability to control multiple degrees of freedom of photon and entangle them has enabled new quantum protocols for various quantum information processing applications. Here, we propose a scheme to generate and control polarization-path-frequency entanglement using the operative elements required to implement a polarization-controlled quantum walk in the path(position) space and frequency domain. Hyperentangled states manifests in the controlled dynamics using an interferometric setup where half-wave plates, beam-splitters and frequency shifters such as those based on the electro-optic effect are used to manipulate the polarization, path and frequency degrees of freedom respectively. The emphasis is on utilizing the polarization to influence the movement to a specific value in the frequency and position space. Negativity between the subspaces is calculated to demonstrate the controllability of the entanglement between them. Progress reported with experimental demonstration of realization of quantum walk using quantum states of light makes quantum walks a practical approach to generate hyperentangled states.

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Nested multilevel entanglement in Matryoshka states

Majumdar

2021

Pramana - J Phys

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Quantum Information Processing Using the Exchange Interaction

Cited by 8 publications

References 65 publications

Theory of Byuon and Pharmaceuticals of the Future

Theory of Byuon and Pharmaceuticals of the Future

Polarization-path-frequency entanglement using interferometry and frequency shifters

Nested multilevel entanglement in Matryoshka states

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