Recent progress in nano-meter structure and measurements is going to provide us the freedom to domesticate fast correlations between atoms in an ensemble, manifesting them at macroscopic level. Here, we show a possibility to generate an electron coherence within an atomic ensemble, via the quantum resonance due to parity inheriting dynamic dipole-dipole interaction. We built up a realistic Hamiltonian having a combinatorial probability factors for the dynamic dipole-dipole quantum resonance. This leads to the precise simulation of the process that will actually occur in nature obeying the energy conservation law. We also show a preliminary experimental data suggestive of the dynamic dipole-dipole mode. These results lead to our proposal of solid state room temperature quantum computer, e.g. by a solid state qubit system of arrayed quantum dots designed to resist against phase errors as well as bit errors.
Recent technology of photonic measurements provides direct observation of the weak modulation in the radiation from a human body, which may depends on psychological or mental conditions of the subject. We have been applying the photonic technology to detect the intensity modulation and spectra, from near ultraviolet to near infrared regime, to human subjects who claim healing ability in the art of qi and other Japanese holistic practices. The photomultiplier signal intensity has been observed to change in `on' and `off' and oscillatory manners, in accordance with the will of subjects. We will discuss the results of our optical as well as electrical measurements comprehensively, to investigate into this unexplored fields for the western science.
This paper proposes a novel solid state quantum CCN gate having a lock structure, which is effective to maintain quantum mechanical coherence and reduce both the bit error and the phase error. The stability of the dipole-dipole interaction in quantum dot array is estimated. Furthermore, the spatiotemporal dynamics of quantum computing process involving the quantum entangled pure states is illustrated.
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