In order to determine the degree of returning_to_zero of temperatures of deformed calcite, a series of rock-breaking experiments were designed to test calcite-rich limestone samples under fixed confining pressures and...In order to determine the degree of returning_to_zero of temperatures of deformed calcite, a series of rock-breaking experiments were designed to test calcite-rich limestone samples under fixed confining pressures and different temperatures. The consolidated deformed samples in their initial state were observed under a microscope and the microscopic indicators in different zero-returning states were put forward, thus providing a microscopic foundation for evaluation of reliability of dating values of deformation in calcite. At last, the correction of dating values of deformation for samples whose temperature has not yet returned to zero is discussed.展开更多
采用半导体光放大器 (SemiconductorOpticalAmplifier,SOA)的分段模型 ,对基于SOA光纤环镜的非归零 (Non Return to Zero ,NRZ)信号时钟分量提取进行了数值模拟 SOA光纤环镜可以将NRZ信号转化为包含其时钟分量的伪归零 (Pseudo Return ...采用半导体光放大器 (SemiconductorOpticalAmplifier,SOA)的分段模型 ,对基于SOA光纤环镜的非归零 (Non Return to Zero ,NRZ)信号时钟分量提取进行了数值模拟 SOA光纤环镜可以将NRZ信号转化为包含其时钟分量的伪归零 (Pseudo Return to Zero ,PRZ)信号 给出了2 .5Gb/s下的模拟计算结果 ,并与实验结果进行了比较 ,进一步给出了展开更多
文摘In order to determine the degree of returning_to_zero of temperatures of deformed calcite, a series of rock-breaking experiments were designed to test calcite-rich limestone samples under fixed confining pressures and different temperatures. The consolidated deformed samples in their initial state were observed under a microscope and the microscopic indicators in different zero-returning states were put forward, thus providing a microscopic foundation for evaluation of reliability of dating values of deformation in calcite. At last, the correction of dating values of deformation for samples whose temperature has not yet returned to zero is discussed.
文摘采用半导体光放大器 (SemiconductorOpticalAmplifier,SOA)的分段模型 ,对基于SOA光纤环镜的非归零 (Non Return to Zero ,NRZ)信号时钟分量提取进行了数值模拟 SOA光纤环镜可以将NRZ信号转化为包含其时钟分量的伪归零 (Pseudo Return to Zero ,PRZ)信号 给出了2 .5Gb/s下的模拟计算结果 ,并与实验结果进行了比较 ,进一步给出了