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Electron paths, tunnelling, and diffraction in the spacetime algebra
Foundations of Physics 23 (10):1329-1356 (1993)
Abstract
This paper employs the ideas of geometric algebra to investigate the physical content of Dirac's electron theory. The basis is Hestenes' discovery of the geometric significance of the Dirac spinor, which now represents a Lorentz transformation in spacetime. This transformation specifies a definite velocity, which might be interpreted as that of a real electron. Taken literally, this velocity yields predictions of tunnelling times through potential barriers, and defines streamlines in spacetime that would correspond to electron paths. We also present a general, first-order diffraction theory for electromagnetic and Dirac waves. We conclude with a critical appraisal of the Dirac theoryAuthor Profiles
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Citations of this work
Clifford Algebras and the Dirac-Bohm Quantum Hamilton-Jacobi Equation.B. J. Hiley & R. E. Callaghan - 2012 - Foundations of Physics 42 (1):192-208.
Imaginary numbers are not real—The geometric algebra of spacetime.Stephen Gull, Anthony Lasenby & Chris Doran - 1993 - Foundations of Physics 23 (9):1175-1201.
States and operators in the spacetime algebra.Chris Doran, Anthony Lasenby & Stephen Gull - 1993 - Foundations of Physics 23 (9):1239-1264.
A multivector derivative approach to Lagrangian field theory.Anthony Lasenby, Chris Doran & Stephen Gull - 1993 - Foundations of Physics 23 (10):1295-1327.
An Einstein addition law for nonparallel boosts using the geometric algebra of space-time.B. Tom King - 1995 - Foundations of Physics 25 (12):1741-1755.
References found in this work
The transactional interpretation of quantum mechanics.John G. Cramer - 1986 - Reviews of Modern Physics 58 (3):647-687.
Imaginary numbers are not real—The geometric algebra of spacetime.Stephen Gull, Anthony Lasenby & Chris Doran - 1993 - Foundations of Physics 23 (9):1175-1201.
A multivector derivative approach to Lagrangian field theory.Anthony Lasenby, Chris Doran & Stephen Gull - 1993 - Foundations of Physics 23 (10):1295-1327.
States and operators in the spacetime algebra.Chris Doran, Anthony Lasenby & Stephen Gull - 1993 - Foundations of Physics 23 (9):1239-1264.
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