Timur Fianovich Kamalov
PhD in Theoretical Physics, Docent of SUE
and Associate Member University of Michigan, Center for Theoretical Physics(page 43)
https://istina.msu.ru/profile/TimKamalov/
http://websites.umich.edu/~mctp/Docs/mctp_5year_review.pdf
Contact phone: +13529993221, +7916296637 (mobile)
Email: TimKamalov@mail.ru
Editor of "International Journal of Theoretical and Mathematical Physics" (English):http://www.sapub.org/journal/editorialboard.aspx?journalid=1070
Editor of Journal "Ciensa Ergo Sum" (Spanish)https://cienciaergosum.uaemex.mx/about/editorialTeam
My Prise from Nature Physics (Journal)http://pirt.info/nature_physics.php
My level in Sciencehttps://publons.com/researcher/2584924/timur-fianovich-kamalov/
https://www.scopus.com/authid/detail.uri?authorId=16068738400
https://orcid.org/0000-0002-4349-4747
https://scholar.google.com/citations?user=SessPgIAAAAJ&hl=ru&oi=ao
Reviever of Springer Nature (Present on ORCID) and ELSEVIER Foundation of Physics, Acta Mechanica, Optical and quantum electronics, International journal of theoretical physics, Superconductivity
My last research results is:
1. Model of the Universe without Dark Matter:
Letter in High Energy Physics, 2023, January, BSM 2023 (Open access)
http://doi.org/10.31526/ACP.BSM-2023.17
2.Quantum Correction for Newton's Law of Motion:
Symmetry 2020, 12(1), 63 (Open access)
https://www.mdpi.com/2073-8994/12/1/63
3. Axiomatization of Physics:
Journal of Physcs CS 442 (2013) 012051
http://iopscience.iop.org/1742-6596/442/1/012051/pdf
4. Foundation of Quantum Theory:
a)Physical Review A, V. 86, issue 2, 022110 (2012)
http://journals.aps.org/pra/abstract/10.1103/PhysRevA.86.022110
5. Simulation on the classical computer entanglement states, bi-photon and qubits 6. Simulation on the classical computer the process of Quantum Computation and realization Quantum Algorithms by Stochastic Methods 7. The Stochastic Gravitational Model of Quantum Correlation 8. Gravitational Interaction 9. Extended Classical Physics in the sense of Analytical Mechanics of Non-Inertial Reference Frames
10. Journal of Physcs CS 442 (2013) 012051
https://arxiv.org/abs/1612.06712
I describe the model of Stochastic bits (Stobits) which are analogical to Qubits and different'one from another by Bell^s Inequalities only. Stobits can be easy simulated and may be applied to Quantum Algorithm realization on the multiprocessors computers.
Simulator EPR (Einstein-Poldolsky-Rosen paradox) [Download]: Simulator of Entangled States (Bi-Photons). In this button you can find demonstration program of Entangled States emulator with the helpful of Stobits, where the color of the lamps is spin orientation up and down; or photons polarization H and V; DOUBLE angle between polarization you can change. You can use this program for your student for the practical work of Bell^s Observable measurement.
Simulator of Quantum Computer [Download]: In this button you can find the program of 16-qubits Entangled States Emulator with the helpful of Stobits, where the color of the lamps is spin orientation up and down or photons polarization H and V, DOUBLE angle between polarization you can change. You can use this program for Quantum Algorithms realization. Qubits are different from Stobits by Bell^s Inequalities only.