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, B_π. It discusses various applications of B_π to predict the existence of new magneto-optic phenomena and to reinterpret some of the fundamentals of optics in terms of B_π 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.

• Optical NMR and ESR Spectroscopy — Equivalent Magnetic Flux Density of the Circularly Polarised Laser
• The Magnetostatic Flux Density B_II 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, BII: 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 B_II: On the Absence of Faraday Induction
• The Optical Faraday Effect and Optical MCD
• The Photon's Magnetostatic Flux Density B_II: The Inverse Faraday Effect Revisited
• The Photon's Magnetostatic Flux Quantum: The Optical Cotton Mouton Effect
• The Photon's Magnetic Flux Quantum B_II: The Magnetic Nature of Antisymmetric Light Scattering
• The Photon's Magnetostatic Flux Quantum: Forward Backward Birefringence Induced by a Laser