Timur Fianovich Kamalov
PhD in Theoretical Physics, Physics Department, Moscow State University of Mechanical Engineering
and MIPT State University (Moscow Institute of Physics and Technology, Dolgoprudny)
Contact Telephone: 7 /495/ 682 14 44 (home)
Email: TimKamalov@mail.ru
Journal: http://www.sapub.org/journal/editorialboard.aspx?journalid=1070 New book!: http://www.urss.ru/cgi-bin/db.pl?lang=Ru&blang=ru&page=Book&id=164705
My last research results is:
1. Axiomatization of Physics:
Journal of Physcs CS 442 (2013) 012051 (http://iopscience.iop.org/1742-6596/442/1/012051/pdf/1742-6596_442_1_012051.pdf)
2. 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
b) the realization of the scheme: Quantum Theory+Classical Physics=General Classical Physics (arXiv:1011.4256)(arXiv:quant-ph/0611053) c) the description of de-Broile waves by Gravitational Waves origin (arXiv:quant-ph/0212139) d) the explanation of the classical experiment of electron's diffraction by Classical Physics (arXiv:quant-ph/0212139) e) the soliton's explanation of de-Broile wave-length (arXiv:quant-ph/0401168)
3. Simulation on the classical computer entanglement states, bi-photon and qubits (arXiv:quant-ph/0301161).
4. Simulation on the classical computer the process of Quantum Computation and realization Quantum Algorithms by Stochastic Methods (arXiv:quant-ph/0109152).
5. The Stochastic Gravitational Model of Quantum Correlation (arXiv:quant-ph/0205168).
6. Gravitational Interaction (arXiv:math-ph/0209025).
7. Extended Classical Physics in the sense of Analytical Mechanics of Non-Inertial Reference Frames(arXiv:1011.4256)(arXiv:quant-ph/0611053).
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.