| 摘要 |
The inventive quantum supermemory is based on cells of a nanostructured material. Said nanostructured material consists of clusters provided with tunnel-transparent shells. The cluster is dimensioned in such a way that it enables an electron to exhibit resonance properties. Said dimension is defined by an annular radius of the electron wave according to the formula:r=ħ/(mαc)=7.2517 nm,where ħ is the Planck constant, mis electron mass, α=1/137.036 is a fine structure constant, c is the light speed. The cluster dimension is specified within the range of rto 4r, the thickness of a tunnel-transparent spacing being equal to or higher than r. The nanostructured material exhibits a property which makes it possible to uniformly store energy (a charge) through out the total volume thereof in such a way that the specific density of the energy is equal to 1.66 x 103J/cm. Said material makes it possible to produce a non-volatile writable memory based thereon which has a density memory equal to 28 Gb/cmat a limit operational temperature of up to 878°C and a limit clock frequency of up to 175 GHz. |
