Revisiting unitarity corrections for electromagnetic processes in collisions of relativistic nuclei

Hencken, Kai; Serbo, V.G.

doi:10.1140/epjc/s10052-008-0773-5

Cited by 15 publications

(12 citation statements)

References 22 publications

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“…In order to affirm the magnitude of the photonic dynamics within the point break, the entire reservoir point break of the Hamiltonian can be further developed as

H_{I} = \sum_{k} V_{k} ((), a^{†} b_{k} + b_{k}^{†} a + a^{†} b_{k}^{†} + a b_{k})

in the consideration of a photon's quantum dynamics. Thus, the scattering photon factors κ ( t ) and

\overset{κ}{true} ((), t)

(all the sub‐indices ( i, j )) in Equation are the most significant symbolization of photonic dynamics, and they can be expressed as

ω_{c}^{'} ((), t) = - italicIm ([],, u ((),, t, t_{0}) / u true(t, t_{0} true))

k ((), t) = - italicRe ([],, u ((),, t, t_{0}) / u true(t, t_{0} true))

\overset{k}{true} ((), t) = \overset{v}{true} ((),, t, t) + 2 v ((),, t, t) k ((), t)

…”

Section: Methodsmentioning

confidence: 99%

“…Because the current generated from photon relates to the solar irradiance and relativistic temperature conditions of the PV panel, the calculation can be written as

I_{L} = normalG ([], I_{SC} + KI ((), T_{C} - T_{ref})) \times V_{mo}

where I sc means PV current at 25°C and KW/m2, KI represents the relativistic PV panel coefficient factor, T ref is the functional temperature of PV panel, and G indicates the solar energy in mW/m2 …”

Section: Electricity Transformationmentioning

confidence: 99%

“…in the consideration of a photon's quantum dynamics. Thus, the scattering photon factors κ (t) and e κ t ð Þ (all the sub-indices (i, j)) in Equation (20) are the most significant symbolization of photonic dynamics, and they can be expressed as 25,26…”

Section: Three Diode Photon Scatteringmentioning

confidence: 99%

“…By integrating Equations (25) to (26) into the dynamic photon production, the production of thousands of photons in the quantum field has been figured out mathematically. There is no doubt that the unit areal condition J(ω) is changeable, so that the active quantum field and the areal unit J(ω) have a definite weak-coupling limitation which is equal to the photon production.…”

Section: Three Diode Photon Scatteringmentioning

confidence: 99%

“…where I sc means PV current at 25°C and KW/m2, KI represents the relativistic PV panel coefficient factor, T ref is the functional temperature of PV panel, and G indicates the solar energy in mW/m2. 26,49 Therefore, the total energy would be (1.4 eV = 27.77 mW/m 2 × 4,092) = 159,088.78 mW/ m 2 · eV per hour. 50 If we use just 1 cm 2 Higgs Boson quantum field assisted high temperature PV panel, it will produce 1590.9 mW/h which is a tremendous source of energy.…”

Section: Three Diode Photon Scatteringmentioning

confidence: 99%

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Photon energy amplification for the design of a micro PV panel

Hossain

2018

Int J Energy Res

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Summary To design a micro PV panel, thousands of photons have been produced from a single photon by breaking down its photonic structure using Higgs‐Boson BR (H → γγ¯) quantum field under high temperature conditions. Because the Higgs‐Boson BR (H → γγ¯) Quantum can be excited under high temperature conditions which forms extremely short‐range week force by the photon‐photon collusion of the bare ions; thus, a pair photon (e+e−) is created from a single photon. This pair of photon can be dissociated by 2 surface semiconductors of the photovoltaic panel and further dispersed by the 3 diodes superconducting silicon surface to form multiple photons, here named as Hossain Multiple Photons (HmP¯). A mathematical test has been performed by applying MATLAB software, which revealed that production of HmP¯ [1photon = (1 + 1 = 2photons) = (2photons + 2photons)2surface = 16photon = (16photons)3diode = ∑4,096photons] from a single phone is doable through photon‐photon collusion, photon dissociation, and photon scattering process into the Higgs‐Boson BR (H → γγ¯) quantum field under high temperature condition. These multiple photons can be converted from direct current into alternating current for commercial use. Calculation revealed that 1590.9 MW/h clean energy can be produced by merely 1 cm2 PV panel which indeed would be a new field of science that will substantially satisfy the total global energy demand.

show abstract

“…In order to affirm the magnitude of the photonic dynamics within the point break, the entire reservoir point break of the Hamiltonian can be further developed as

H_{I} = \sum_{k} V_{k} ((), a^{†} b_{k} + b_{k}^{†} a + a^{†} b_{k}^{†} + a b_{k})

in the consideration of a photon's quantum dynamics. Thus, the scattering photon factors κ ( t ) and

\overset{κ}{true} ((), t)

(all the sub‐indices ( i, j )) in Equation are the most significant symbolization of photonic dynamics, and they can be expressed as

ω_{c}^{'} ((), t) = - italicIm ([],, u ((),, t, t_{0}) / u true(t, t_{0} true))

k ((), t) = - italicRe ([],, u ((),, t, t_{0}) / u true(t, t_{0} true))

\overset{k}{true} ((), t) = \overset{v}{true} ((),, t, t) + 2 v ((),, t, t) k ((), t)

…”

Section: Methodsmentioning

confidence: 99%

“…Because the current generated from photon relates to the solar irradiance and relativistic temperature conditions of the PV panel, the calculation can be written as