POSSIBILITY OF UNIFYING THEORY OF RELATIVITY WITH QUANTUM MECHANICS

'To what extent is it possible to unify theory of relativity with quantum mechanics?''

'To what extent is it possible to unify theory of relativity with quantum mechanics?''

Introduction

The main purpose of this paper is to make an analysis on the issue that what is the extent to which it is possible to unify the theory of relativity with quantum mechanics. The two most important objectives,of the current century, quantum mechanics and Einstein's special theory of relativity made the first part of a new trial, it was founded with treatment. Power of "uncertainty" in the quantum theory put forwarded in quality and integration of the energy correlation of quantum fluctuations by a special particle / antiparticle pair creation is the idea, the combined equivalent. As a result there is no self-consistent theory, extended to the simple equation of relativistic quantum signal, single-particle Schrodinger equation.

DiscussionThe most prosperous era of this problem has been started in the early 30's development, beginning not with the element of relativity alone, but with the academic theory of relativity theory, for example, Maxwell's electromagnetic theory. The school district theory is then "quantized" in the common area of production and the quantum theory of recognition of a reliable mix of quantum mechanics and relativity. However, this theory itself has the academic characteristics of all aspects of individual particles in the general pattern of the quantum many-body theory. In the production of multi-particle theory, it can be easily managed on a large scale if some of the concern of particles, or the inherent power to zone theory is very linear. In one such case, atomic physics, atomic-scale electron-volt power supply with about a million in the second growth, in addition to one or two electron-positron in the area of the Maxwell theory of photons is very small, linear power supply. However, the location has absolutely turned the quarks and gluons in a powerful combination of atomic nuclei created in particle theory. Although these particles change the size of the forces of nature, proton, meson r other is aligned on the hundreds of millions of electron volts, the quark masses of about a century times. Similarly, the gluon is an area of Yang and Mills meet the highly nonlinear equations of quantum fields. As a result, there is no strong interaction physics and numerical analysis of well-known procedures set offers the only possibility, and not less than the present value of production from the first proposition and develop a basic understanding of this theory. This powerful combination of particles, quantum chromo dynamics, or QCD theory, is particularly interesting because of non-linear relationship, in theory, there are spectacular physical effects. A logical, non-linear gluon result is "restricted" to the two quarks and gluons, the particles that no one can be found in exactly the same as the vacuum excitation. Similarly, a ruthless "chiral symmetry", usually a lightweight quark theory show that it is breaking of the chiral quark / anti-quark condensate in ...