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Mohammad Fassihi

Mohammad Fassihi

Novelist and Physicist
leading the research on CQFT (Confined Quantum Field Theory)
Sweden

Biography

Mohammad Fassihi is both a Novelist and Physicist.Is author of the roman “I wish to make you happy” and the book “Confined Quantum Field Theory”.Was burn in 1946 in Iran. 1965 Attend Engineering faculty of Tehran’s university.1971 Moved to Sweden for more adventure and studying physics and mathematics.Activity in elementary particle physics;1981 Joint the elementary particle physics group at Chalmers University of technology and did some work in BRST quantization.Activity in experimental physics;1985-1994 worked with the surface physics group at the same university.My work was mainly on the kinetics reactions on the Platinum surface. During this time contributed to some publication like;(A theoretical and experimental study of catalytic ignition in the hydrogen-oxygen reaction on platinum. M FASSIHI, VP ZHDANOV, M RINNEMO, KE KECK, B KASEMO , Hydrogen self-ignition ,M. Fassihi and B. Kasemo, Chem. Phys. Lett. ...).But the main result about Kinetic Oscillation was never published. The reason was that I moved to the mathematical department.

Research Interest

To understand Optics-photonics, the key is to understand in the best way the dynamics of electrons and photons. And Confined Quantum Field Theory is the best theoretical instrument. Confined Quantum Field Theory is a new approach in physics. It solves both fundamental and applied problems in physics Concerning Optics-Photonics It gives a simple and transparent picture of the interaction between electrons and photons. Thanks to its definition of the quantum state as a connected bounded manifold, it provides explicit size and position for electrons and photons. The question of the size of electron and photon become more and more important in all aspects of solid state physics. No one can ignore the question of size in nanotechnology. One can also experience that films lose or changes the property of superconductivity due to the size of its thickness.