Zhi Bin Wang scite author profile

Zhang

et al. 2011

AMR

Remote sensing technology can be used to quickly extract macro information of the study area, and its advantages in monitoring water resources have become increasingly evident. In this study, Fenhe 2nd reservoir and Jinyang Lake in Taiyuan，Shanxi Province were examined using the remote sensing data obtained from HJ-1B on May 6, 2010. Water area of Fenhe 2nd reservoir was extracted using NDWI and improved segmentation threshold. The distribution of eutrophication and phytoplankton in Jinyang Lake were analyzed using NDPI and a profile map of phytoplankton was produced. Results show that spatial and spectral resolution of HJ-1B can meet the requirements of water resources monitoring well, which are conducive for further promotion and application of HJ-1B remote sensing data.

The Response of Electrostatic MEMS Structure under Mechanical Shock and Electrostatic Forces

Huang

et al. 2013

AMM

For MEMS devices actuated by electrostatic force, unexpected failure modes can be hardly predicted when the electrostatic force coupled with the shock. A response model is established when a micro cantilever subjected to electrostatic force and mechanical shock. First, based on the theory of transverse forced vibration in vibration mechanics, the equation of motion under shock and electrostatic fore is presented. Then the reduced order model is gained after simplifying by mode superposition method. The computing results indicate that: the shock amplitude and duration are the key factors to affect the reliability of the device; the shock load and electrostatic forces make the threshold voltage much lower than the anticipated value. The micro cantilever may collapse to the substrate even at a voltage far lower than the pull-in voltage. This early dynamic pull-in instability may cause some failures such as short circuit, adhesion or collision damage.

A Novel Tapered Optical Fiber-Based F<sub>0</sub>F<sub>1</sub>-ATPase Nanobiosensor

2014

AMM

In this paper, a novel high sensitive nanobiosensor based on the combination of F0F1-ATPase molecular motor and Φ100nm tapered optical fiber is described, which as we known has never been reported before. Since the tapered optical fiber tip is well matched with the F0F1-ATPase complex in size, a superb sensitivity is theoretically expected. Experimental results show that this nanobiosensor’s sensitivity is about 3.5 times higher than the result of the experiment conducted on a F0F1-ATPase modified ordinary Φ50μm multimode fiber biosensor. The detecting time could be decreased correspondingly. Therefore a cheap, high sensitivity ,fast response, single molecule detection of biomolecules such as epidemic viruses would be achievable using this tapered optical fiber-based F0F1-ATPase nanobiosensor.

Polarization-Insensitive Holey Fiber with Ultra-Small Mode Areas Using a Cross-Slot-Structure Core

Chen

et al. 2014

KEM

A high nonlinear, dispersion flattened hybrid nanofiber with a silicon/silica cross-slot-structure nanocore is firstly proposed and analyzed, which is insensitive to polarization for implementing quasi-TE and quasi-TM fundamental modes transmission due to cross slot effect. Simulation results show that fundamental mode of ultra-small mode effective areas and high nonlinearity at TE and TM polarizations, which are confined in the narrow cross slot by four silicon ribs, can be achieved via this cross sot structure core. Moreover, the cladding of four large-air-holes promotes tailoring the group velocity dispersion (GVD) and enhancing nonlinearity furthermore. Our results indicate that ultra-small Aeff of 0.098μm2 and flat anomalous GVD with less than 13.5 ps.km-1.nm-1 dispersion ripple at C-band are realizable.