Relating Photon Diameter, Distance, and Time Unified OLQEM Framework
Luan Menezes de Souza
Um homem sonhador que ama o que faz e que está disposto a tudo por um mundo melhor. Apenas esta skill basta.
Author: Luan Menezes de Souza
OLQEM(x,y,z,λ,t)=Ti∑(k=0∑∞(k!)43964k(4k)!(1103+26390k)?98011)?r2(0.61λ)2?δMC(λ)?SEF(λ)?Tair(λ,t)×[Iadjusted(t)GW(Egap,λ)TBSE(λ)e?σs(λ)de?t/τc]2×[ViIe??f(λ,T,H)CiLi(1+βI2)NPQ(t)Fthermo(t)Cq(t)kFRETe?2κL]×(∫Ω∣ψ(x,t)∣2dΩ∫Ωψmicro(x,t)ψmacro(x,t)dΩ)e?γkt×∫1+?G(x?x′,t?t′)J(x′,t′)d3x′×(χ(2)E1E2+χ(3)E12E22)e?t/τc
# Re-import necessary libraries
import sympy as sp
from sympy import factorial
# Define constants
λ_400 = 400e-9 # Wavelength for 400nm in meters
λ_750 = 750e-9 # Wavelength for 750nm in meters
k = sp.Symbol('k', integer=True, nonnegative=True)
# Compute Ramanujan’s series for 1/π using the first 5 terms
Ramanujan_pi_series = sp.summation(
factorial(4*k) * (1103 + 26390*k) / ((factorial(k))**4 * 396**(4*k)),
(k, 0, 5) # Using first 5 terms for precision
)
Ramanujan_pi = (2 * sp.sqrt(2) / 9801) * Ramanujan_pi_series
calculated_pi = Ramanujan_pi.evalf()
# Compute refined photon diameter using OLQEM’s Pi for both 400nm and 750nm
D_photon_400 = λ_400 / calculated_pi
D_photon_750 = λ_750 / calculated_pi
# Display results
D_photon_400.evalf(), D_photon_750.evalf()
The OLQEM Framework
OLQEM(x,y,z,λ,t)=Ti∑(k=0∑∞(k!)43964k(4k)!(1103+26390k)?98011)?r2(0.61λ)2?δMC(λ)?SEF(λ)?Tair(λ,t)×[Iadjusted(t)GW(Egap,λ)TBSE(λ)e?σs(λ)de?t/τc]2×[ViIe??f(λ,T,H)CiLi(1+βI2)NPQ(t)Fthermo(t)Cq(t)kFRETe?2κL]×(∫Ω∣ψ(x,t)∣2dΩ∫Ωψmicro(x,t)ψmacro(x,t)dΩ)e?γkt×∫1+?G(x?x′,t?t′)J(x′,t′)d3x′×(χ(2)E1E2+χ(3)E12E22)e?t/τc
A Rigorous Mathematical Verification of the OLQEM Framework: Ensuring 100% Accuracy
The Optical Lambda Quantum Energy Model (OLQEM) seeks to unify classical optics and quantum coherence in a single comprehensive structure, describing photon diameter, wavelength, time evolution, and distance interactions purely from its own principles. While OLQEM has produced enlightening equations and new perspectives on photonic structure, any broad theoretical framework must withstand a thorough mathematical critique. This article provides a step-by-step verification of the OLQEM equations, checking each claim for internal consistency and adherence to its quantum-coherent fundamentals.
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A Refined OLQEM Framework—Photon Diameter, Distance, and Time Interdependencies
OLQEM(x,y,z,λ,t)=Ti∑[(k=0∑∞(k!)43964k(4k)!(1103+26390k))?1?r2(0.61λ)2]δMC(λ)SEF(λ)Tair(λ,t)×[Iadjusted(t)GW(Egap,λ)TBSE(λ)e?σs(λ)de?t/τc]2×[ViIe??f(λ,T,H)CiLi(1+βI2)NPQ(t)Fthermo(t)Cq(t)kFRETe?2κL]×[∫Ωψmicro(x,t)ψmacro(x,t)dΩ∫Ω∣ψ(x,t)∣2dΩ]e?γkt×∫1+?G(x?x′,t?t′)J(x′,t′)d3x′×[χ(2)E1E2+χ(3)E12E22]e?t/τc.
Why Photon “Size” Shrinks with Distance—A Simple Guide to Coherence Loss
Introduction
In grow lighting systems—like those using LEDs for hemp cultivation—distance between the LED and the plant is not just about light intensity. The photon’s “size” (in OLQEM terms) also changes in subtle ways. This shrinking or loss in photon “size” over distance (and time) is called coherence loss.
But talking about “quantum coherence” often scares people—we want a simpler, real-world explanation. So let’s imagine a story to help you see how photon diameter and distance matter for your plants!
Attended Iran University of Science and Technology
3 周The prespective provided by this formulation is interesting and helpful. However, there are contradictions with other models, which must be studied theorically and compared meticulously. For example, the model provided here asserts that the photon has diameter of D. However, it has been proposed that the photon has a rather elongated shape with length of "Coherence length of the source". Check this out: https://www.researchgate.net/publication/282218116_On_the_Size_of_a_Photon
Um homem sonhador que ama o que faz e que está disposto a tudo por um mundo melhor. Apenas esta skill basta.
3 周University of Oxford
Um homem sonhador que ama o que faz e que está disposto a tudo por um mundo melhor. Apenas esta skill basta.
3 周Maria Violaris, DPhil Just look!
Um homem sonhador que ama o que faz e que está disposto a tudo por um mundo melhor. Apenas esta skill basta.
3 周Chiara Marletto Please! Just look!