Article: The second quantum revolution: the development of quantum subatomic nanotechnologies Journal: International Journal of Nanotechnology (IJNT) 2024 Vol.21 No.1/2 pp.17 - 25 Abstract: The paper analyses the development of quantum nanotechnology based on attosecond physics of the subatomic level of the condensed state. The ways of realising the main achievements of the second quantum revolution in subatomic nanotechnologies: quantum entanglement, quantum contextuality and quantum dissipativity are considered. A theoretical analysis of the prospects for this direction in the development of quantum subatomic nanotechnologies was carried out within the framework of the theory of thermo field dynamics of a condensed state. The analysis showed that entanglement of subatomic pairs of electrons can be realised using single attosecond pulses. These pairs form the interface between supra-atomic capsules, which localise closed nuclear-electronic subsystems by the Coulomb blockade. The processes of measurement and control of the electronic-nuclear subsystem are carried out by the sensor and actuator control subsystem of secondary low-energy entangled pairs of electrons. Sensory stages of pulsed attosecond measurements alternate with stages of pulsed femtosecond control. In the measurement processes, secondary low-energy entangled pairs of electrons dissipate the energy of the electron-nuclear subsystem. As a result, the process of multiplication of a subsystem of low-energy secondary entangled pairs of electrons in the surrounding dissipative medium of the condensed state occurs. They form a dissipative interface infrastructure at higher levels in the hierarchy of smart quantum materials. Inderscience Publishers - linking academia, business and industry through research

Title: The second quantum revolution: the development of quantum subatomic nanotechnologies

Authors: S.A. Beznosyuk

Addresses: Department of Physical and Inorganic Chemistry, Altai State University, Barnaul, 656049, Russia

Abstract: The paper analyses the development of quantum nanotechnology based on attosecond physics of the subatomic level of the condensed state. The ways of realising the main achievements of the second quantum revolution in subatomic nanotechnologies: quantum entanglement, quantum contextuality and quantum dissipativity are considered. A theoretical analysis of the prospects for this direction in the development of quantum subatomic nanotechnologies was carried out within the framework of the theory of thermo field dynamics of a condensed state. The analysis showed that entanglement of subatomic pairs of electrons can be realised using single attosecond pulses. These pairs form the interface between supra-atomic capsules, which localise closed nuclear-electronic subsystems by the Coulomb blockade. The processes of measurement and control of the electronic-nuclear subsystem are carried out by the sensor and actuator control subsystem of secondary low-energy entangled pairs of electrons. Sensory stages of pulsed attosecond measurements alternate with stages of pulsed femtosecond control. In the measurement processes, secondary low-energy entangled pairs of electrons dissipate the energy of the electron-nuclear subsystem. As a result, the process of multiplication of a subsystem of low-energy secondary entangled pairs of electrons in the surrounding dissipative medium of the condensed state occurs. They form a dissipative interface infrastructure at higher levels in the hierarchy of smart quantum materials.

Keywords: second quantum revolution; quantum subatomic nanotechnology; attosecond physics; quantum entanglement; quantum contextuality; quantum dissipativity; entangled electron pairs; thermo field dynamics; nonequilibrium condensed matter physics.

DOI: 10.1504/IJNT.2024.136507

International Journal of Nanotechnology, 2024 Vol.21 No.1/2, pp.17 - 25

Published online: 05 Feb 2024 *

Full-text access for editors Full-text access for subscribers Purchase this article Comment on this article

Title: The second quantum revolution: the development of quantum subatomic nanotechnologies

Keep up-to-date