Lacking timely access to rescue resources is one of the main causes of casualties in tunnel collapse.To provide timely rescue,this study proposed a multi-objective preallocation model of special emergency resources fo...Lacking timely access to rescue resources is one of the main causes of casualties in tunnel collapse.To provide timely rescue,this study proposed a multi-objective preallocation model of special emergency resources for tunnel collapse based on demand time.Efficiency,multiple coverage,and cost-effectiveness are taken as the key objectives of the model;the demand time service range is used as a coverage decision factor considering the unique nature of tunnel collapse.The weight of potential disaster-affected points and other general factors are also considered in this model in order to thoroughly combine the distribution of disaster points and service areas.Further,we take 15 main tunnel projects under construction in China as an example.When the relative proximity to the ideal point of the selected optimal schemeε_(a)is smaller than 0.5,we will adjust the weight of three objectives and reselect the optimal scheme untilε_(a)>0.5.Compared with the not preallocated case,the number of rescue rigs needed is reduced by 8.3%,the number of covered potential disaster-affected points is increased by 36.36%,the weighted coverage times are increased from 0.853 to 1.383,and the weighted distance is significantly reduced by 99%when the rescue rigs are preallocated,verifying the feasibility and superiority of the proposed model.展开更多
We review the recently discovered tunnel-type giant magnetoresistance (GMR) in ferromagnetic metal-insulator granular thin films, which is the magnetoresistance (MR) associated with the spin-dependent tunneling betwee...We review the recently discovered tunnel-type giant magnetoresistance (GMR) in ferromagnetic metal-insulator granular thin films, which is the magnetoresistance (MR) associated with the spin-dependent tunneling between two ferromagnetic metal particles. The theoretical and experimental results including electrical resistivity, magnetoresistance and their temperature dependence are described. Limitations to the applications of the ferromagnetic metal-insulator granular films are also discussed. Additionally, a brief survey of another two magnetic properties, high- frequency property and giant Hall effect (GHE) associated strongly with the granular structures is also presented.展开更多
We review the giant tunnel magnetoresistance (TMR) in ferromagnetic-insulator-ferromagnetic junctions discovered in recent years, which is the magnetoresistance (MR) associated with the spin-dependent tunneling betwee...We review the giant tunnel magnetoresistance (TMR) in ferromagnetic-insulator-ferromagnetic junctions discovered in recent years, which is the magnetoresistance (MR) associated with the spin-dependent tunneling between two ferromagnetic metal films separated by an insulating thin tunnel barrier. The theoretical and experimental results including junction conductance, magnetoresistance and their temperature and bias dependences are described.展开更多
The current research on the structure design, characterization and structural stability of soft X-ray optical multilayermirrors is reviewed and further studies on the currently existing problems and the possible solut...The current research on the structure design, characterization and structural stability of soft X-ray optical multilayermirrors is reviewed and further studies on the currently existing problems and the possible solutions are made.展开更多
Modulation structure stability of Co/C and CoN/CN soft X ray multilayers has been investigated by X ray diffraction and Raman spectroscopy. The graphitization of the amorphous carbon layers in Co/C multilayers causes ...Modulation structure stability of Co/C and CoN/CN soft X ray multilayers has been investigated by X ray diffraction and Raman spectroscopy. The graphitization of the amorphous carbon layers in Co/C multilayers causes a period expansion of 12% at annealing temperatures below 400℃. An enormous period expansion (~40%) induced by the crystallization and agglomeration of Co layers has been observed at 500℃. While the period expansion of CoN/CN multilayers is only 4% at 400℃. The interface pattern of the CoN/CN multilayers still exists even if they were annealed at 700℃. The relatively good thermal stability of CoN/CN multilayers can be attributed to the suppression of the formation of the sp 3 bonding and, at annealing temperatures higher than the phase transition temperature of 420℃ (from hcp to fcc), the coexistence of hcp and fcc Co structures through doping nitrogen.展开更多
基金supported by the funding provided by the National Natural Science Foundation of China(Grant no.51908187)。
文摘Lacking timely access to rescue resources is one of the main causes of casualties in tunnel collapse.To provide timely rescue,this study proposed a multi-objective preallocation model of special emergency resources for tunnel collapse based on demand time.Efficiency,multiple coverage,and cost-effectiveness are taken as the key objectives of the model;the demand time service range is used as a coverage decision factor considering the unique nature of tunnel collapse.The weight of potential disaster-affected points and other general factors are also considered in this model in order to thoroughly combine the distribution of disaster points and service areas.Further,we take 15 main tunnel projects under construction in China as an example.When the relative proximity to the ideal point of the selected optimal schemeε_(a)is smaller than 0.5,we will adjust the weight of three objectives and reselect the optimal scheme untilε_(a)>0.5.Compared with the not preallocated case,the number of rescue rigs needed is reduced by 8.3%,the number of covered potential disaster-affected points is increased by 36.36%,the weighted coverage times are increased from 0.853 to 1.383,and the weighted distance is significantly reduced by 99%when the rescue rigs are preallocated,verifying the feasibility and superiority of the proposed model.
基金the National NaturalScience Foundation of China (Grant No. 59801006) the Key Teacher Supporting Project (Grant No. G00032) +1 种基金and the Starting Foundation of Returned Researchers of the National Education Committee and Tianjin Youth Science Foundatio
文摘We review the recently discovered tunnel-type giant magnetoresistance (GMR) in ferromagnetic metal-insulator granular thin films, which is the magnetoresistance (MR) associated with the spin-dependent tunneling between two ferromagnetic metal particles. The theoretical and experimental results including electrical resistivity, magnetoresistance and their temperature dependence are described. Limitations to the applications of the ferromagnetic metal-insulator granular films are also discussed. Additionally, a brief survey of another two magnetic properties, high- frequency property and giant Hall effect (GHE) associated strongly with the granular structures is also presented.
基金This work was supported by the National Natural Science Foundation of China (Grant No. 59801006) the Key Teachers Supporting Project (Grant No. G00032) and the Starting Foundation for Returned Researchers (Grant No. B29904) of the National Education
文摘We review the giant tunnel magnetoresistance (TMR) in ferromagnetic-insulator-ferromagnetic junctions discovered in recent years, which is the magnetoresistance (MR) associated with the spin-dependent tunneling between two ferromagnetic metal films separated by an insulating thin tunnel barrier. The theoretical and experimental results including junction conductance, magnetoresistance and their temperature and bias dependences are described.
文摘The current research on the structure design, characterization and structural stability of soft X-ray optical multilayermirrors is reviewed and further studies on the currently existing problems and the possible solutions are made.
文摘Modulation structure stability of Co/C and CoN/CN soft X ray multilayers has been investigated by X ray diffraction and Raman spectroscopy. The graphitization of the amorphous carbon layers in Co/C multilayers causes a period expansion of 12% at annealing temperatures below 400℃. An enormous period expansion (~40%) induced by the crystallization and agglomeration of Co layers has been observed at 500℃. While the period expansion of CoN/CN multilayers is only 4% at 400℃. The interface pattern of the CoN/CN multilayers still exists even if they were annealed at 700℃. The relatively good thermal stability of CoN/CN multilayers can be attributed to the suppression of the formation of the sp 3 bonding and, at annealing temperatures higher than the phase transition temperature of 420℃ (from hcp to fcc), the coexistence of hcp and fcc Co structures through doping nitrogen.
