Green science: Decoding dark photon structure to produce clean energy
To produce energy from dark photon γ̄, I have proposed it to collide with Higgs-boson BR(H→γγ̄) quantum under extreme relativistic condition (ERC). Just because Higgs-boson, BR(H→γγ̄) quantum get excited at extreme relativistic condition and its quantum field get extreme short-range week force to cr...
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| Series: | Energy Reports |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2352484717301890 |
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doaj-964afb1b7c0449f8ad70ccfd2ed8238e2020-11-24T21:20:06ZengElsevierEnergy Reports2352-48472018-11-0144148Green science: Decoding dark photon structure to produce clean energyMd. Faruque Hossain0Correspondence to: Department of Civil and Urban Engineering, New York University, 6 Metro Tech Center, Brooklyn, NY 11201, USA.; Department of Civil and Urban Engineering, New York University, 6 Metro Tech Center, Brooklyn, NY 11201, USA; Green Globe Technology, 4323 Colden Street 15L, Flushing, NY 11355, USATo produce energy from dark photon γ̄, I have proposed it to collide with Higgs-boson BR(H→γγ̄) quantum under extreme relativistic condition (ERC). Just because Higgs-boson, BR(H→γγ̄) quantum get excited at extreme relativistic condition and its quantum field get extreme short-range week force to create electromagnetic field. Thus, I have assumed that the results of electrically charged particles of dark photon γ̄(non-energy level photon) into the extreme relativistic condition shall indeed create energy level photon, here named as Hossain Dark Photon (HdP−). To confirm this HdP−transformation by Higgs boson BR(H→γγ̄) quantum interaction, I have performed series of mathematical modeling by using MATLAB software. Interestingly, the mathematical calculation revealed that the presence of an extra relativistic condition does transform dark photon γ̄into HdP−at Neff=4.08−0.68+0.71at 95% level l.c. (confidence limit) respectively dark photon’s speed ceffand viscosity cvisparameters as d ceff=20.312±0.026 and cvis2=−0.16+0.21, consistent with the expectations of a relativistic free streaming componentceff=2cvis2=1∕3. With the presence of Neff, the HdP−photon transformation dynamics was also modeled at nano scale by cavity waveguides circuit considering atomic spectra contour maps of Hamiltonian (H=∑ωciai†ai+∑Kωkbk†bk+∑ikVika†bk+Vik∗bk†ai) embedded in a semiconductor. The result revealed that the transformation of Hossain Dark Photons (HdP−) by Higgs-boson [BR(H→γγ̄] particle reaction under extreme relativistic condition (ERC) are very much energy level to produce the electricity. Keywords: Dark photon, Photo-physics, Higgs-boson [BR(H→γγ̄] particle, Ultra relativistic condition, Hossain Dark Photon (HdP−), Renewable energyhttp://www.sciencedirect.com/science/article/pii/S2352484717301890 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Md. Faruque Hossain |
| spellingShingle |
Md. Faruque Hossain Green science: Decoding dark photon structure to produce clean energy Energy Reports |
| author_facet |
Md. Faruque Hossain |
| author_sort |
Md. Faruque Hossain |
| title |
Green science: Decoding dark photon structure to produce clean energy |
| title_short |
Green science: Decoding dark photon structure to produce clean energy |
| title_full |
Green science: Decoding dark photon structure to produce clean energy |
| title_fullStr |
Green science: Decoding dark photon structure to produce clean energy |
| title_full_unstemmed |
Green science: Decoding dark photon structure to produce clean energy |
| title_sort |
green science: decoding dark photon structure to produce clean energy |
| publisher |
Elsevier |
| series |
Energy Reports |
| issn |
2352-4847 |
| publishDate |
2018-11-01 |
| description |
To produce energy from dark photon γ̄, I have proposed it to collide with Higgs-boson BR(H→γγ̄) quantum under extreme relativistic condition (ERC). Just because Higgs-boson, BR(H→γγ̄) quantum get excited at extreme relativistic condition and its quantum field get extreme short-range week force to create electromagnetic field. Thus, I have assumed that the results of electrically charged particles of dark photon γ̄(non-energy level photon) into the extreme relativistic condition shall indeed create energy level photon, here named as Hossain Dark Photon (HdP−). To confirm this HdP−transformation by Higgs boson BR(H→γγ̄) quantum interaction, I have performed series of mathematical modeling by using MATLAB software. Interestingly, the mathematical calculation revealed that the presence of an extra relativistic condition does transform dark photon γ̄into HdP−at Neff=4.08−0.68+0.71at 95% level l.c. (confidence limit) respectively dark photon’s speed ceffand viscosity cvisparameters as d ceff=20.312±0.026 and cvis2=−0.16+0.21, consistent with the expectations of a relativistic free streaming componentceff=2cvis2=1∕3. With the presence of Neff, the HdP−photon transformation dynamics was also modeled at nano scale by cavity waveguides circuit considering atomic spectra contour maps of Hamiltonian (H=∑ωciai†ai+∑Kωkbk†bk+∑ikVika†bk+Vik∗bk†ai) embedded in a semiconductor. The result revealed that the transformation of Hossain Dark Photons (HdP−) by Higgs-boson [BR(H→γγ̄] particle reaction under extreme relativistic condition (ERC) are very much energy level to produce the electricity. Keywords: Dark photon, Photo-physics, Higgs-boson [BR(H→γγ̄] particle, Ultra relativistic condition, Hossain Dark Photon (HdP−), Renewable energy |
| url |
http://www.sciencedirect.com/science/article/pii/S2352484717301890 |
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