By using the dispersion theory instead of the Frohlich Hamiltonian, the polaron energy in a quantum aot with a parabolic confinement potential is investigated at finite temperatures. It is found that the self-trapping...By using the dispersion theory instead of the Frohlich Hamiltonian, the polaron energy in a quantum aot with a parabolic confinement potential is investigated at finite temperatures. It is found that the self-trapping energy of the polaron decreases with the increasing temperature, and the temperature effect is more obvious in quantum dots with weaker confinement.展开更多
The influence of the wavelength dispersion on the temperature accuracy of the Raman distributed temperature sensor system (RDTS) is analyzed in detail, and a simple correction algorithm is proposed to compensate the...The influence of the wavelength dispersion on the temperature accuracy of the Raman distributed temperature sensor system (RDTS) is analyzed in detail, and a simple correction algorithm is proposed to compensate the fiber position error caused by the wavelength dispersion. The principle of the proposed algorithm is described theoretically, and the correction on each point along the entire fiber is realized. Temperature simulation results validate that the temperature distortion is corrected and the temperature accuracy is effectively improved from +5 ℃ to ±1 ℃.展开更多
基金Supported by Shanghai Leading Academic Discipline Project(B408)National Key Project for Basic Research of China under Grant Nos.2010CB923203,2006CB806006,and 2006CB921105+1 种基金National Natural Science Foundation of China under Grant Nos.10904038 and 10874044Shanghai Municipal Science and Technology Commission under Grant Nos.09JC1404700 and 08PJ1404800
文摘By using the dispersion theory instead of the Frohlich Hamiltonian, the polaron energy in a quantum aot with a parabolic confinement potential is investigated at finite temperatures. It is found that the self-trapping energy of the polaron decreases with the increasing temperature, and the temperature effect is more obvious in quantum dots with weaker confinement.
基金This work was supported by Natural Science Foundation of China (60977058), Science Fund for Distinguished Young Scholars of Shandong Province of China (JQ200819), Independent Innovation Foundation of Shandong University (IIFSDU2010JC002&2012JC015), and promotive research fund for excellent young and middle-aged scientists of Shandong Province (BS2010DX028).
文摘The influence of the wavelength dispersion on the temperature accuracy of the Raman distributed temperature sensor system (RDTS) is analyzed in detail, and a simple correction algorithm is proposed to compensate the fiber position error caused by the wavelength dispersion. The principle of the proposed algorithm is described theoretically, and the correction on each point along the entire fiber is realized. Temperature simulation results validate that the temperature distortion is corrected and the temperature accuracy is effectively improved from +5 ℃ to ±1 ℃.