Causal Physics: Photons by Non-Interactions of Waves
Autor Chandrasekhar Roychoudhurien Limba Engleză Paperback – 12 oct 2017
The book redefines the old ether (constituting the space) as a stationary Complex Tension Field (CTF), holding all the energy of the universe (no need for Dark Energy of Dark Matter). CTF sustains perpetually propagating EM waves as its linear excitations and the particles as self-looped localized resonant non-linear excitations. Tensions are identified by Maxwell, then the velocities of emitting and detecting atoms through the CTF contribute to the Doppler shifts separately. This calls for re-visiting physical processes behind Hubble Redshift and hence Expanding Universe.
The success of the book derives from a novel thinking strategy of visualizing the invisible interaction processes, named as Interaction Process Mapping Epistemology (IPM-E). This is over and above the prevailing strategy of Measurable Data Modeling Epistemology (MDM-E). The approach inspires the next generation of physicists to recognizing that the "foundation of the edifice of physics" has not yet been finalized. IPM-E will stimulate more of us to become technology innovators by learning to emulate the ontologically real physical processes in nature and become more evolution congruent.
Critical thinkers without expertise in optical science and engineering, will appreciate the value of the content by reading the book backward, starting from Ch.12; which explains the critical thinking methodology besides giving a very brief summary of the contents in the previous chapters.
- Establishes that abandoning the wave-particle-duality actually allows us to extract more realities out of quantum mechanics.
- Illustrates how the discovery of the NIW-property profoundly impacts several branches of fundamental physics, including Doppler effect and hence the cosmological red shift
- Summarizes that many ad hoc hypotheses from physics can be removed, a la Occam’s razor, while improving the reality and comprehension of some of the current working theories
- Demonstrates that our persistent attempts to restore causality in physical theories will be guided by our capability to visualize the invisible light matter interaction processes that are behind the emergence of all measurable data
- Draws close attention to the invisible but ontological interaction processes behind various optical phenomena so we can emulate them more efficiently and knowledgably in spite of limitations of our theories
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Specificații
ISBN-13: 9781138073326
ISBN-10: 1138073326
Pagini: 296
Ilustrații: 74
Dimensiuni: 156 x 234 x 21 mm
Greutate: 0.45 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
ISBN-10: 1138073326
Pagini: 296
Ilustrații: 74
Dimensiuni: 156 x 234 x 21 mm
Greutate: 0.45 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Cuprins
Contradictions in Optical Phenomena. Recognizing NIW Property (Non-Interaction of Waves). Emergence of Superposition Effects. Diffraction Phenomenon. Spectrometry. "Coherence" Phenomenon. Mode-Lock Phenomenon. Dispersion Phenomenon. Polarization Phenomenon. A Causal Photon without Duality. NIW Property Requires space as a Complex Tension Field (CTF). Evolving Scientific Enquiry.
Notă biografică
Chandrasekhar Roychoudhuri is a research professor of physics, at the University of Connecticut. His key interest is in exploring the fundamental nature of light and particles. Chandra came to the USA as a Fulbright Scholar and received his PhD from the Institute of Optics, University of Rochester. He has worked for US industries for 14 years (TRW, Perkin-Elmer, United Technologies) and for academia for over two decades (India, Mexico, USA). He is a life member of APS, OSA, and IEEE, and Fellow of OSA and SPIE. He was a member of the board of directors of both OSA and SPIE.
Descriere
This work explains how the non interaction of waves principle applies to both classical and quantum optics. Focusing on waves in the linear domain, it explores ambiguous, contradictory, and paradoxical concepts that exist in spite of apparently correct mathematical formulations. The author reformulates classical and quantum optics mathematics by clearly defining the methodology used for gathering information from these measurements. The book provides the tools to properly validate a model of these measurements, offering a more coherent and simpler understanding of classical and quantum optics.