目前地图信息的查询与天气预报的实现大多采用.NET开发平台,虽然.NET对微软Windows有出色的支持,但对其他系统下的开发支持还不够。因此,根据工具命令语言(TCL)多平台通用和易于扩展的特点,采用其网络接口开发包、网络协议传输包及套接...目前地图信息的查询与天气预报的实现大多采用.NET开发平台,虽然.NET对微软Windows有出色的支持,但对其他系统下的开发支持还不够。因此,根据工具命令语言(TCL)多平台通用和易于扩展的特点,采用其网络接口开发包、网络协议传输包及套接字替代.NET实现网络服务平台的高效、快速开发,同时使得开发的网络平台可以在Linux、Unix、Windows等系统上运行。为便于用户获取各地的地理和天气信息,采用百度地图应用程序接口(API)和天气信息服务(Weather Web Service)接口,并利用TCL编写的公共网关接口(CGI)对上述两种Web接口的服务进行整理,用户可根据不同的需求,获取相应的信息服务。此外,在Windows下设计开发的TCL及CGI脚本可移植于其他系统,实现跨平台操作。展开更多
This Letter presents intrinsic Fabry–Perot interferometers in the fiber tapers fabricated by the femtosecond laser micromachining technique. The sensing of temperatures as high as 1000°C based on the fiber devic...This Letter presents intrinsic Fabry–Perot interferometers in the fiber tapers fabricated by the femtosecond laser micromachining technique. The sensing of temperatures as high as 1000°C based on the fiber device is characterized, with a sensitivity of 15.28 pm∕°C. A nearly linear refractive index sensing is also obtained by using the fringe visibility to characterize, with a sensitivity of 73.05 dB∕RIU. These intrinsic Fabry–Perot interferometers in fiber tapers may be useful in applications of high-temperature and linear refractive index sensing.展开更多
文摘目前地图信息的查询与天气预报的实现大多采用.NET开发平台,虽然.NET对微软Windows有出色的支持,但对其他系统下的开发支持还不够。因此,根据工具命令语言(TCL)多平台通用和易于扩展的特点,采用其网络接口开发包、网络协议传输包及套接字替代.NET实现网络服务平台的高效、快速开发,同时使得开发的网络平台可以在Linux、Unix、Windows等系统上运行。为便于用户获取各地的地理和天气信息,采用百度地图应用程序接口(API)和天气信息服务(Weather Web Service)接口,并利用TCL编写的公共网关接口(CGI)对上述两种Web接口的服务进行整理,用户可根据不同的需求,获取相应的信息服务。此外,在Windows下设计开发的TCL及CGI脚本可移植于其他系统,实现跨平台操作。
基金supported by the National Natural Science Foundation of China(Nos.61377081 and 61007035)the Chen Guang project by Shanghai Municipal Education Commission and Shanghai Education Development Foundation(No.12CG48)the Science and Technology Commission of Shanghai Municipality(STCSM)(No.14511105602)
文摘This Letter presents intrinsic Fabry–Perot interferometers in the fiber tapers fabricated by the femtosecond laser micromachining technique. The sensing of temperatures as high as 1000°C based on the fiber device is characterized, with a sensitivity of 15.28 pm∕°C. A nearly linear refractive index sensing is also obtained by using the fringe visibility to characterize, with a sensitivity of 73.05 dB∕RIU. These intrinsic Fabry–Perot interferometers in fiber tapers may be useful in applications of high-temperature and linear refractive index sensing.