Today, the projects from high energy experiments have very high precision results and measurements under lattice preview and theoretical approach. Derived from that equation(s) of state of our single dual universe AdSitter Holographic Space, like “Light scalars: from lattice to the LHC via holography”, one shall create - Hilbert Space defined - a quantum measurement tool allowing real-time approximation of our topological quantum computer model(s) and the first data released by the references (1, 2, 3, 4, 5) and from the performed facilities results. The executable is described as a topological quantum emulation(13) tool with two comparison architectures from (14), that will be used to measure the emitted laser beams that came from a chip-defined dielectric laser accelerator as described by (9), (10), (11). Photonic and Electrical detection of
nuclear spin echo signals(8) is installed to detect the collective networked relativistic
electrons - also non-relativistic(12) - displacement, atomic clustering cloud dimensions through the measurement of reverberation of (ultra)sound waves that collide, softly, with an experimental air electron-clusters super-arrays of N2, O2, CO2, last level of electrons energy. The sound waves streams of melodical interferences hits the quantum electronic cluster concentration vortex/antivortex structures of that molecular gases generating a response signal that was detected background. It should be possible to identify and classify that gases through atomic/mesonic structural analysis of electronic/electromagnetic signals derived
from difference capacitation induced by quantum fluctuations during acoustics interaction(2), (3), (4) or any geometrically configurable nano-object like dirac monopoles(5). The experimental probe consists in submitting a particle/atomic Physics experiment to run in any light source facility which is powering a continuous wave shot- a bunch of laser beams - colliding with control system core crystal structure between the two silicon dielectric toroidal vortex nanomagnets engines with biparticle entangled states (6), (7) that is used to be self-tested. The experimental configuration shall recommend that the device shall be
handcrafted by instrumentation technicals within Dielectric Laser Accelerators on a chip extracting quantum resonance(..) parameters before lattice configuration and others experimental definitions. So, we could integrate the received acoustic equations to quantum noise measurements on electronic signals/waves derived from air gases mixture, i.e.; the superfluid(5) networked environment, that shall extract quantum state parameters to fill up
the requirements for the IBM-qubits(..) datapath for quantum computation. Also, a HPC-lattice application using Forth Language was described with (15), (16), (17), (18), (19), (20)+. The experiment temperature is cold: ~4.2K(...).
Today, the projects from high energy experiments have very high precision results and measurements under lattice preview and theoretical approach. Derived from that equation(s) of state of our single dual universe AdSitter Holographic Space, like “Light scalars: from lattice to the LHC via holography”, one shall create - Hilbert Space defined - a quantum measurement tool allowing real-time approximation of our topological quantum computer model(s) and the first data released by the references (1, 2, 3, 4, 5) and from the performed facilities results. The executable is described as a topological quantum emulation(13) tool with two comparison architectures from (14), that will be used to measure the emitted laser beams that came from a chip-defined dielectric laser accelerator as described by (9), (10), (11). Photonic and Electrical detection of nuclear spin echo signals(8) is installed to detect the collective networked relativistic electrons - also non-relativistic(12) - displacement, atomic clustering cloud dimensions through the measurement of reverberation of (ultra)sound waves that collide, softly, with an experimental air electron-clusters super-arrays of N2, O2, CO2, last level of electrons energy. The sound waves streams of melodical interferences hits the quantum electronic cluster concentration vortex/antivortex structures of that molecular gases generating a response signal that was detected background. It should be possible to identify and classify that gases through atomic/mesonic structural analysis of electronic/electromagnetic signals derived from difference capacitation induced by quantum fluctuations during acoustics interaction(2), (3), (4) or any geometrically configurable nano-object like dirac monopoles(5). The experimental probe consists in submitting a particle/atomic Physics experiment to run in any light source facility which is powering a continuous wave shot- a bunch of laser beams - colliding with control system core crystal structure between the two silicon dielectric toroidal vortex nanomagnets engines with biparticle entangled states (6), (7) that is used to be self-tested. The experimental configuration shall recommend that the device shall be handcrafted by instrumentation technicals within Dielectric Laser Accelerators on a chip extracting quantum resonance(..) parameters before lattice configuration and others experimental definitions. So, we could integrate the received acoustic equations to quantum noise measurements on electronic signals/waves derived from air gases mixture, i.e.; the superfluid(5) networked environment, that shall extract quantum state parameters to fill up the requirements for the IBM-qubits(..) datapath for quantum computation. Also, a HPC-lattice application using Forth Language was described with (15), (16), (17), (18), (19), (20)+. The experiment temperature is cold: ~4.2K(...).