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World Scientific Series in Contemporary Chemical Physics - Vol. 1
THE PHOTON'S MAGNETIC FIELD
Optical NMR Spectroscopy
by Myron W Evans (Univ. North Carolina, Charlotte & Cornell Theory Ctr.)
This book is a collection of papers on a fundamentally new concept in physics — the photon's magnetic field, Bp. It discusses various applications of Bp to predict the existence of new magneto-optic phenomena and to reinterpret some of the fundamentals of optics in terms of Bp of the photon. One of these new phenomena, optical NMR spectroscopy, has already been verified experimentally, leading to a new analytical technique of widespread potential utility.
Contents:
- Optical NMR and ESR Spectroscopy — Equivalent Magnetic Flux Density of the
Circularly Polarised Laser
- The Magnetostatic Flux Density BP of the Electromagnetic Field: Development and Classical Interpretation
- The Elementary Static Magnetic Field of the Photon
- On the Experimental Measurement of the Photon's Fundamental Static Magnetic Field Operator, BP: The Optical Zeeman Effect in Atoms
- On the Experimental Detection of the Photon's Fundamental Static Magnetic Field Operator: The Anomalous Optical Zeeman and Optical Paschen Back Effects
- The Photon's Magnetostatic Flux Quantum: Symmetry and Wave Particle Duality, Fundamental Consequences in Physical Optics
- The Photon's Magnetostatic Flux Quantum BP: On the Absence of Faraday Induction
- The Optical Faraday Effect and Optical MCD
- The Photon's Magnetostatic Flux Density BP: The Inverse Faraday Effect Revisited
- The Photon's Magnetostatic Flux Quantum: The Optical Cotton Mouton Effect
- The Photon's Magnetic Flux Quantum BP: The Magnetic Nature of Antisymmetric Light Scattering
- The Photon's Magnetostatic Flux Quantum: Forward Backward Birefringence Induced by a Laser
Readership: Physicists, chemists, material scientists and research students.
| 264pp |
Pub. date: Jan 1993 |
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