The application of electron-photon work-energy relation in electronics

The essential electron-photon work-energy relation has been established and verified
(--also the conversion mechanism from electrical energy into photon (or heat) energy)
------------------------------------------------ by Bingcheng Zhao

Many insightful and pondering professional people working in the area of electronics may often ask the fundamentally important questions as following. (1) “What is the dynamic mechanism that converts input electrical energy into output photon (or heat) energy?” In other words, “what is the conversion mechanism from input electrical energy into output photon (or heat) energy?” (2) Since photons are emitted from electron, is there and what is the most important relation between electron and its emitting photon? (3) Is there work-energy relation between electron and its emitting photon? Those essentially important questions have been answered in the newly established and verified electron-photon work-energy relation (equation) for the first time in the history of physics and science (P. 252 ~ 258, 3.4, Ch.3A, reference #1).

Electron-photon work-energy relation (equation): being the combination of OEPIEP law* and energy conservation law, electron-photon work-energy equation is established for the first time in the history of quantum physics (P. 252 ~ 258, 3.4, Ch.3A, reference #1). The equation reveals and expresses the essential work-energy relation between electron and its emitting photon as that: the work accepted by an electron over its one impulse period is equal to the energy of the photon emitted by the electron. (*Note, OEPIEP law = the law of orbiting electron periodic impulse emitting photons, P. 193 ~ 214, Ch.2A, reference #1). The newly established electron-photon work-energy equation is on P. 254 as Eq (3-6) (Ch.3A, reference #1).

The newly established electron-photon work-energy equation has been corroborated via deriving out Joule’s law from the equation (P. 256 ~ 258, 3.4.3, Ch.3A, reference #1).

The fundamentally profound implications of electron-photon work-energy relation (equation): this relation reveals the mechanism that converts input electrical energy into output photon (or heat) energy; this relation establishes the most essential bridge between electron and its emitting photon (P. 254 ~ 255, 3.4.2, Ch.3A, reference #1), for the first time in the history of physics and science.

The great application of electron-photon work-energy relation (equation): due to its revealing the mechanism that converts input electrical energy into output photon energy, electron-photon work-energy relation (equation) lays the fundamentally indispensable foundation for substantially enhancing the proportion of visible light in lighting apparatuses (P. 272, reference #1; P. 913, 10.3.3, Ch.10, reference #2), along with the fact that: at present, ordinary light bulb only converts about 5% of the input electrical energy into useful visible lights.


Reference #1: 2009, Bingcheng Zhao, From Postulate-Based Modern Physics to Mechanism-Revealed Physics [Vol. 1(1/2)], ISBN: 978-1-4357-4913-9.
Reference #2: 2009, Bingcheng Zhao, From Postulate-Based Modern Physics to Mechanism-Revealed Physics [Vol. 2(2/2)], ISBN: 978-1-4357-5033-3.

Ph.D., Bingcheng Zhao,
The author of “From Postulate-Based Modern Physics to Mechanism-Revealed Physics”
1401 NE Merman Dr. Apt. 703, Pullman, WA 99163 USA.
Email: bingcheng.zhao@gmail.com