The defense countermeasure was engineered to force denotation of warheads and encapsulate radiation and the energy waves of intercontinental ballistic missiles (ICBMs) during re-entry.
Matter Fireball is related, generally and in various embodiments, to a directed high energy laser weapon system with a supplemental plasma generation platform.
The directed high energy laser weapon system may be utilized to eliminate threats associated with one or more intercontinental ballistic missiles (ICBMs) equipped with multiple nuclear warheads by completely incinerating the ICBMs before the ICBMs reach their intended targets during re-entry phase.
The laser beams intercept the heavy ions at ultra-relativistic energies. The working parameters are as follows: energy density < 1GeV/fm³, along with the critical temperature above Tcrit ≈ 170 MeV. Each beam can expel beam energies of up to √s > 10 GeV and more. At this point, a macroscopic variable will be introduced into the medium of the target. This will be the catalyst that pushes the envelope on the Lagrange multiplier term drastically increasing the chemical potential which alters the partition function, thus modifying the grand canonical factor. The result is the baryo-chemical potential is high at low energies of collisions which produce matter fireballs.
The burn zone represents the dimension where plasma is generated and proliferated at a rapid rate. This dimension is the area where the plasma has met the threshold requirements for the incineration process of any type of matter. The temperature and saturation of plasma depends on the catalyst dose. This burn zone can be configured per target, specifically for nuclear tipped warheads. The burn zone can be dialed in for containing and eliminating the nuclear detonation. When the system “intercepts” an ICBM with nuclear warheads, the 70kev or greater heat signature of a nuclear detonation can be extinguished, and the associated energy waves can be blanketed all within the burn zone. The nuclear material will be absorbed and incinerated inside the burn zone.
The main core of the weapon system uses a proprietary laser platform which provides the best synchrotron radiation source. This platform is driven in concert by a unique small modular nuclear reactor configured as hybrid fission-fusion design.
The laser beams intercept the heavy ions at ultra-relativistic energies. The working parameters are as follows: energy density < 1GeV/fm³, along with the critical temperature above Tcrit ≈ 170 MeV. Each beam can expel beam energies of up to √s > 10 GeV and more. A variable will be introduced into the medium of the target. This will be the catalyst that pushes the envelope on the Lagrange multiplier term drastically increasing the chemical potential which alters the partition function, thus modifying the grand canonical factor.
The result is the baryo-chemical potential that is high at low energies of collisions which produce matter fireballs. The controlled thermophoresis working in conjunction with application of DC biasing utilized by the multiple independent electrode arrays configured for specific voltage parameters to produce modifications on the outer plasma edge, settling out of a solution of energy from a laser pulse as it destroys the target, introducing extremely high thermal pressure gradients in the plasma.
In the burn zone, the stability of matter does not exist. Infalling matter is converted to (Z and W) bosons during the collapse.
In sufficiently intense gravitational fields, matter collapses to form exhausted neutrinoless double-beta decay..Hadrons transition provides an exotic medium where phase transitions of gravity are manipulated in the anti-de-Sitter space. Building on the formula: e+ eˉ → Z ͦ → ˉqq, the decay aftermath results in a pair of hot off shell partons. This develops within an area encapsulated by cold harmonic vacuum. The pair of hot partons protracts and begins the process of dissipating heat. Once the parton reaches a distance of ̰> 1 fm from its corresponding parton, it will become confined and hadronize. The confinement reverts back to the space like the Wilson loop integral coupled with the Polyakov loop integral. Now imagine a curve that is in the form of a rectangle with time-like sides of duration split by distance, in the confining phase then the corresponding to a potential: V ~μR.
The high operating temperatures of plasma interacting with the nuclear detonation causes gravitational self-compression due to the burn zone temperature of approximately 10,000,000˚K. The core of the burn zone is depleted of its supply of hydrogen and lacks the energy to resist the force of gravity unless it reaches equilibrium for electron degeneracy or allows the core temperature to continue to increase until the threshold for producing helium fusion is achieved. The hydrogen fuses and begins to change first to deuterium and then to helium.
