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The Unification of Gravity and E&M via Kaluza -Klein Theory. Chad A. Middleton Mesa State College September 16, 2010 Th. Kaluza, Sitzungsber. Preuss. Akad. Wiss. Phys. Math. Klasse 996 (1921). O. Klein, Z.F. Physik 37 895 (1926).
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The Unification of Gravity and E&M via Kaluza-Klein Theory Chad A. Middleton Mesa State College September 16, 2010 Th. Kaluza, Sitzungsber. Preuss. Akad. Wiss. Phys. Math. Klasse 996 (1921). O. Klein, Z.F. Physik 37 895 (1926). O. Klein, Nature 118 516 (1926).
Outline… • Electromagnetic Theory • Differential form of the Maxwell equations • Scalar and vector potentials in E&M • Maxwell’s equations in terms of the potentials • Relativistic form of the Maxwell equations • Intro to Einstein’s General Relativity • Kaluza-Klein metric ansatz in 5D • Einstein field equations in 5D
Maxwell’s equations in differential form (in vacuum) Gauss’ Law for E-field Gauss’ Law for B-field Faraday’s Law Ampere’s Law with Maxwell’s Correction these plus the Lorentz force completely describe classical Electromagnetic Theory
Taking the curl of the 3rd & 4th eqns (in free space when = J = 0) yield.. The waveequations for the E-, B-fields with predicted wave speed Light = EM wave! Notice the similarity between the treatment of space & time.
Maxwell’s equations… Gauss’ Law for E-field Gauss’ Law for B-field Faraday’s Law Ampere’s Law with Maxwell’s Correction Q: Can we write the Maxwell eqns in terms of potentials?
E, B in terms of A, Φ… • Φ is called the Scalar Potential • is called the Vector Potential Write the Maxwell equations in terms of the potentials.
Maxwell’s equations in terms of the Scalar & Vector Potentials Gauss’ Law Ampere’s Law
Gauge Invariance of A, Φ.. Notice: E & B fields are invariant under the transformations: for any function Show gauge invariance of E & B.
Introducing 4-vector calculus..Define the 4-vector potential, Aα, as…Define the 4-vector current density, Jα, as…Define the 4-vector operator…
Relativistic form of the Maxwell Eqns.. where is called the EM field-strength tensor. Notice: The gauge invariance of the 4-vector potential becomes Calculate β=0 component of the Maxwell equation
In 1915, Einstein gives the world hisGeneral Theory of Relativity • describes the curvature of spacetime • describes the matter& energy in spacetime
When forced to summarize the general theory of relativity in one sentence; time and space and gravity have no separate existence from matter - Albert Einstein Matter tells space how to curve Space tells matter how to move
Line element in 4D curved spacetime • is the metric tensor • defines the geometry • of spacetime • Know , know geometry i.e. In flat space:
Assumptions of Kaluza… Nature = pure gravity Mathematics of 4D GR can be extended to 5D No dependence on the 5th coordinate
Assumptions of Kaluza… Nature = pure gravity Mathematics of 4D GR can be extended to 5D No dependence on the 5th coordinate O. Klein discovers a way to drop this assumption.
GR in 5D.. The 5D metric tensor can be expressed as.. • Notice: • from a 4D viewpoint, these are a tensor, a vector, and a scalar • where the indicies range over the values
GR in 5D.. • Parameterize the 5D metric tensor as.. • where , • Notice: Aα is a 4-vector. • Q: Is Aαthe 4-vector potential?
GR in 5D.. • Parameterize the 5D metric tensor as.. • where , • Notice: Aα is a 4-vector. • Q: Is Aαthe 4-vector potential? • A: Only if it satisfies the Maxwell Equations!
This metric ansatz yields the 5D line element.. • Notice: • The line element is invariant under translations in y: According to Kaluza-Klein theory: Gauge invariance arises from translational invariance in y!
Plugging our metric ansatz into the 5D GR eqns yields.. where
Plugging our metric ansatz into the 5D GR eqns yields.. The 4D Einstein equations with matter (radiation) from Einstein eqns in 5D w/out matter! where
Plugging our metric ansatz into the 5D GR eqns yields.. The Maxwell equations in 4D in the absence of a current! where
Plugging our metric ansatz into the 5D GR eqns yield.. The 4D EM stress-energy tensor! where
Conclusions According to Kaluza-Klein theory: • 5D Einstein equations in vacuum induce 4D Einstein equations with matter (EM radiation) • Electromagnetic theory is a product of pure geometry • Gauge invariance arises from translational invariance in the extra dimension. Shortcomings: • 5th dimension is not observed! • Why does the metric tensor & the vector potential not depend on the 5th dimension?
Kaluza-Klein Compactification Consider a 5D theory, w/ the 5th dimension periodic… http://images.iop.org/objects/physicsweb/world/13/11/9/pw1311091.gif where • Kaluza, Theodor (1921) Akad. Wiss. Berlin. Math. Phys. 1921: 966–972 • Klein, Oskar (1926) Zeitschrift für Physik, 37 (12): 895–906
The Maxwell & GR equations of are derivable from an action, just like the Lagrange eqns. Classical Dynamics: Electromagnetic Theory: General Relativity: