Phase space dynamics and control of the quantum particles associated to hypergraph states
Апстракт
As todays nanotechnology focus becomes primarily oriented toward production and manipulation of materials at the subatomic level, allowing the performance and complexity of interconnects where the device density accepts more than hundreds devices on a single chip, the manipulation of semiconductor nanostructures at the subatomic level sets its prime tasks on preserving and adequate transmission of information encoded in specified (quantum) states. The presented study employs the quantum communication protocol based on the hypergraph network model where the numerical solutions of equations of motion of quantum particles are associated to vertices (assembled with device chip), which follow specific controllable paths in the phase space. We address these findings towards ultimate quest for prediction and selective control of quantum particle trajectories. In addition, presented protocols could represent valuable tool for reducing background noise and uncertainty in low-dimensional and ope...rationally meaningful, scalable complex systems.
Извор:
EPJ Web of Conferences, 2015, 95Напомена:
- 3rd International Conference on New Frontiers in Physics (ICNFP), Jul 28-Aug 06, 2014, Kolymbari, Greece
DOI: 10.1051/epjconf/20159504007
ISSN: 2100-014X
WoS: 000358248400070
Scopus: 2-s2.0-84960927670
Колекције
Институција/група
VinčaTY - CONF AU - Berec, Vesna I. PY - 2015 UR - https://vinar.vin.bg.ac.rs/handle/123456789/7072 AB - As todays nanotechnology focus becomes primarily oriented toward production and manipulation of materials at the subatomic level, allowing the performance and complexity of interconnects where the device density accepts more than hundreds devices on a single chip, the manipulation of semiconductor nanostructures at the subatomic level sets its prime tasks on preserving and adequate transmission of information encoded in specified (quantum) states. The presented study employs the quantum communication protocol based on the hypergraph network model where the numerical solutions of equations of motion of quantum particles are associated to vertices (assembled with device chip), which follow specific controllable paths in the phase space. We address these findings towards ultimate quest for prediction and selective control of quantum particle trajectories. In addition, presented protocols could represent valuable tool for reducing background noise and uncertainty in low-dimensional and operationally meaningful, scalable complex systems. C3 - EPJ Web of Conferences T1 - Phase space dynamics and control of the quantum particles associated to hypergraph states VL - 95 DO - 10.1051/epjconf/20159504007 ER -
@conference{ author = "Berec, Vesna I.", year = "2015", abstract = "As todays nanotechnology focus becomes primarily oriented toward production and manipulation of materials at the subatomic level, allowing the performance and complexity of interconnects where the device density accepts more than hundreds devices on a single chip, the manipulation of semiconductor nanostructures at the subatomic level sets its prime tasks on preserving and adequate transmission of information encoded in specified (quantum) states. The presented study employs the quantum communication protocol based on the hypergraph network model where the numerical solutions of equations of motion of quantum particles are associated to vertices (assembled with device chip), which follow specific controllable paths in the phase space. We address these findings towards ultimate quest for prediction and selective control of quantum particle trajectories. In addition, presented protocols could represent valuable tool for reducing background noise and uncertainty in low-dimensional and operationally meaningful, scalable complex systems.", journal = "EPJ Web of Conferences", title = "Phase space dynamics and control of the quantum particles associated to hypergraph states", volume = "95", doi = "10.1051/epjconf/20159504007" }
Berec, V. I.. (2015). Phase space dynamics and control of the quantum particles associated to hypergraph states. in EPJ Web of Conferences, 95. https://doi.org/10.1051/epjconf/20159504007
Berec VI. Phase space dynamics and control of the quantum particles associated to hypergraph states. in EPJ Web of Conferences. 2015;95. doi:10.1051/epjconf/20159504007 .
Berec, Vesna I., "Phase space dynamics and control of the quantum particles associated to hypergraph states" in EPJ Web of Conferences, 95 (2015), https://doi.org/10.1051/epjconf/20159504007 . .