Skip to main content
EXTENDED SEARCH
Log in
Top
Published in:
Read chapter Read first chapter

2025 | OriginalPaper | Chapter

4. Remodeling of Photosynthesis to Equilibrate Global CO2 Cycle

Author : Md. Faruque Hossain

Published in: Sustainable Global Development in Environment, Energy, Building, and Infrastructure

Publisher: Springer Nature Switzerland

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

The chapter investigates the urgent need to address the rising atmospheric CO2 levels, which pose a significant threat to future generations. It introduces a groundbreaking model that leverages electric field energy to enhance the natural process of photosynthesis, thereby increasing the absorption of CO2 from the atmosphere. The research delves into the modeling of electric field energy and photon frequency, utilizing advanced simulations and calculations to demonstrate the feasibility of this approach. By implementing an electric field energy-generated iron rod around trees, the study aims to double the rate of photosynthesis, leading to a more efficient sequestration of carbon dioxide. The findings highlight the potential of this method to contribute to mitigating climate change, offering a promising avenue for creating a sustainable future.
AI Generated

This summary of the content was generated with the help of AI.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Business + Economics & Engineering + Technology"

Online-Abonnement

Springer Professional "Business + Economics & Engineering + Technology" gives you access to:

  • more than 102.000 books
  • more than 537 journals

from the following subject areas:

  • Automotive
  • Construction + Real Estate
  • Business IT + Informatics
  • Electrical Engineering + Electronics
  • Energy + Sustainability
  • Finance + Banking
  • Management + Leadership
  • Marketing + Sales
  • Mechanical Engineering + Materials
  • Insurance + Risk


Secure your knowledge advantage now!

inform now

Springer Professional "Engineering + Technology"

Online-Abonnement

Springer Professional "Engineering + Technology" gives you access to:

  • more than 67.000 books
  • more than 390 journals

from the following specialised fileds:

  • Automotive
  • Business IT + Informatics
  • Construction + Real Estate
  • Electrical Engineering + Electronics
  • Energy + Sustainability
  • Mechanical Engineering + Materials





 

Secure your knowledge advantage now!

inform now

Springer Professional "Business + Economics"

Online-Abonnement

Springer Professional "Business + Economics" gives you access to:

  • more than 67.000 books
  • more than 340 journals

from the following specialised fileds:

  • Construction + Real Estate
  • Business IT + Informatics
  • Finance + Banking
  • Management + Leadership
  • Marketing + Sales
  • Insurance + Risk



Secure your knowledge advantage now!

inform now
previous chapter Climate Change Impacts on Global Ecosystem
next chapter Application of Dormant Light Energy to Breakdown CO2 Naturally
Literature
1.
Artemyev, N., Jentschura, U., Serbo, V., & Surzhykov, A. (2012). Strong electromagnetic field effects in ultra-relativistic heavy-ion collisions. European Physical Journal C: Particles and Fields, 72, 1935.
2.
Birnbaum, K. M., et al. (2005). Photon blockade in an optical cavity with one trapped atom. Nature, 436, 87–90.MATH
3.
Busch, K., et al. (2007). Periodic nanostructures for photonics. Physics Reports, 444, 101–202.MATH
4.
5.
Chang, D. E., Sørensen, A. S., Demler, E. A., & Lukin, M. D. (2007). A single-photon transistor using nanoscale surface plasmons. Nature Physics, 3, 807–812.
6.
Chen, G., et al. (2013). Examining non-locality and quantum coherent dynamics induced by a common reservoir. Scientific Reports.
7.
Dayan, B., et al. (2008). A photon turnstile dynamically regulated by one atom. Science, 319, 1062–1065.MATH
8.
Douglas, J. S., et al. (2015). Quantum many-body models with cold atoms coupled to photonic crystals. Nature Photonics, 9, 326–331.MATH
9.
Eichler, J., & Stöhlker, T. (2007). Radiative electron capture in relativistic ion–atom collisions and the photoelectric effect in hydrogen-like high-Z systems. Physics Reports, 439, 1–99.MATH
10.
Englund, D., et al. (2010). Resonant excitation of a quantum dot strongly coupled to a photonic crystal nanocavity. Physical Review Letters, 104, 073904.MATH
11.
Guerlin, C., et al. (2007). Progressive field-state collapse and quantum non-demolition photon counting. Nature, 448, 889–893.MATH
12.
Javadi, A., et al. (2015). Single-photon non-linear optics with a quantum dot in a waveguide. Nature Communications, 6, 8655.MATH
13.
Jiaqi, L., Yi, Z., Chengkai, T., & Zhu, X. (2019). INS aided high dynamic single-satellite position algorithm. In 2019 IEEE international conference on signal processing, communications and computing (ICSPCC).
14.
Kaneda, F., et al. (2019). High-efficiency single-photon generation via large-scale active time multiplexing. Science Advances, 5(10), eaaw8586.MATH
15.
Langer, L., et al. (2014). Access to long-term optical memories using photon echoes retrieved from semiconductor spins. Nature Photonics, 8, 851–857.MATH
16.
Langford, K., et al. (2021). Efficient quantum computing using coherent photon conversion. Nature, 478, 360–363.MATH
17.
Lodahl, P., Mahmoodian, S., Stobbe, S., Rauschenbeutel, A., et al. (2017). Chiral quantum optics. Nature.
18.
Lü, X.-Y., Zhang, W.-M., Ashhab, S., Ying, W., & Nori, F. (2013). Quantum-criticality induced strong Kerr nonlinearities in optomechanical systems. Scientific Reports.
19.
Naghiloo, M., et al. (2016). Mapping quantum state dynamics in spontaneous emission. Nature Communications.
20.
Najjari, B., Voitkiv, A. B., Artemyev, A., & Surzhykov, A. (2009). Simultaneous electron capture and bound-free pair production in relativistic collisions of heavy nuclei with atoms. Physical Review A, 80, 012701.
21.
Prasad, A. S., Hinney, J., Mahmoodian, S., Hammerer, K., et al. (2020). Correlating photons using the collective nonlinear response of atoms weakly coupled to an optical mode. Nature Photonics.
22.
Reinhard, A., et al. (2012). Strongly correlated photons on a chip. Nature Photonics, 6, 93–96.MATH
23.
Shalm, L. K., et al. (2012). Three-photon energy–time entanglement. Nature Physics.
24.
Ting, T. C. (2004). The polarization vector and secular equation for surface waves in an anisotropic elastic half-space. International Journal of Solids and Structures.
25.
Vanner, M. R., Hofer, J., Cole, G. D., & Aspelmeyer, M. (2013). Cooling-by-measurement and mechanical state tomography via pulsed optomechanics. Nature Communications.
26.
Wang, C., Wang, W., & Chen, Z. (2017). Single-satellite positioning algorithm based on direction-finding. In 2017 Progress in electromagnetics research symposium - Spring (PIERS).
Metadata
Title
Remodeling of Photosynthesis to Equilibrate Global CO2 Cycle
Author
Md. Faruque Hossain
Copyright Year
2025
Book
Sustainable Global Development in Environment, Energy, Building, and Infrastructure

Print ISBN: 978-3-031-84428-7

Electronic ISBN: 978-3-031-84429-4

Copyright Year: 2025

DOI
https://doi.org/10.1007/978-3-031-84429-4_4