The aim of the present experiments was to discern if the “entanglement”-like photon emissions from pairs of cell cultures or human brains separated by significant distances but sharing the same circling magnetic fie...The aim of the present experiments was to discern if the “entanglement”-like photon emissions from pairs of cell cultures or human brains separated by significant distances but sharing the same circling magnetic field could be demonstrated with a classic chemiluminescent reaction produced by hydrogen peroxide and hypochlorite. Simultaneous injection of the same amount of peroxide into a local dish (above a photomultiplier tube) and a dish 10 m away in a closed chamber produced a “doubling” of the durations of the photon spikes only when the two reactions were placed in the center of separate spaces around each of which magnetic fields were generated as accelerating group velocities containing decreasing phase modulations followed by decelerating group velocities embedded with increasing phase modulations. The duration of this “entanglement” was about 8 min. These results suggest that separate distances behave as if they were “the same space” if they are exposed to the same precise temporal configuration of magnetic fields with specific angular velocities.展开更多
A new method,to our knowledge,in designing a metasurface with wideband and angularly stable radar cross section(RCS)reduction based on the coupling effect of orbital angular momentum(OAM)and focal shift(FS)is proposed...A new method,to our knowledge,in designing a metasurface with wideband and angularly stable radar cross section(RCS)reduction based on the coupling effect of orbital angular momentum(OAM)and focal shift(FS)is proposed.Through the analytical discussion of both an ideal scattering model and a practical array model,it is found that the effect of OAM-FS coupling can control the scattering wavefronts efficiently with an optimal arrangement in backward field and‘homogenization'reflected field,indicating RCS reduction in both monostatic and bistatic directions.To verify this method,by combining three phases(geometric phase,gradient phase,and divergent phase),the OAM-FS coupling metasurface is designed and its performance in RCS reduction is tested in simulation and experimentally.The unit cell of the metasurface,constructed with arcs and lines,can provide arbitrary phase compensation and polarization conversion performance within a fractional bandwidth of115.4%.Our results show that the proposed metasurface achieves a 10 d B reduction in both monostatic and bistatic RCSs over 8–32 GHz and has angular stability under 0°-30°oblique incidence of plane waves,and the measured results are in good agreement with the simulations.Our findings not only reveal a coupling effect in scattering waves of metasurfaces,but also offer a new perspective in manipulation of reflection and RCS reduction,which has potential applications in stealth technology.展开更多
文摘The aim of the present experiments was to discern if the “entanglement”-like photon emissions from pairs of cell cultures or human brains separated by significant distances but sharing the same circling magnetic field could be demonstrated with a classic chemiluminescent reaction produced by hydrogen peroxide and hypochlorite. Simultaneous injection of the same amount of peroxide into a local dish (above a photomultiplier tube) and a dish 10 m away in a closed chamber produced a “doubling” of the durations of the photon spikes only when the two reactions were placed in the center of separate spaces around each of which magnetic fields were generated as accelerating group velocities containing decreasing phase modulations followed by decelerating group velocities embedded with increasing phase modulations. The duration of this “entanglement” was about 8 min. These results suggest that separate distances behave as if they were “the same space” if they are exposed to the same precise temporal configuration of magnetic fields with specific angular velocities.
基金Fundamental Research Funds for the Central Universities(D5000240290)National Key Basic Research Program(NKBRP-25115X002)+2 种基金Key Research and Development Projects of Shaanxi Province(2024GXYBXM-080)National Natural Science Foundation of China(62401464)Sustainably Supported Foundation by the National Key Laboratory of Science and Technology on Space Microwave(HTKJ2024KL504003)。
文摘A new method,to our knowledge,in designing a metasurface with wideband and angularly stable radar cross section(RCS)reduction based on the coupling effect of orbital angular momentum(OAM)and focal shift(FS)is proposed.Through the analytical discussion of both an ideal scattering model and a practical array model,it is found that the effect of OAM-FS coupling can control the scattering wavefronts efficiently with an optimal arrangement in backward field and‘homogenization'reflected field,indicating RCS reduction in both monostatic and bistatic directions.To verify this method,by combining three phases(geometric phase,gradient phase,and divergent phase),the OAM-FS coupling metasurface is designed and its performance in RCS reduction is tested in simulation and experimentally.The unit cell of the metasurface,constructed with arcs and lines,can provide arbitrary phase compensation and polarization conversion performance within a fractional bandwidth of115.4%.Our results show that the proposed metasurface achieves a 10 d B reduction in both monostatic and bistatic RCSs over 8–32 GHz and has angular stability under 0°-30°oblique incidence of plane waves,and the measured results are in good agreement with the simulations.Our findings not only reveal a coupling effect in scattering waves of metasurfaces,but also offer a new perspective in manipulation of reflection and RCS reduction,which has potential applications in stealth technology.
