时宽-波形基联合捷变的LPD通信波形

为了提升通信信号的低检测概率(low probability of detection, LPD)性能,从降低通信波形各域能量聚敛性的角度,提出时宽-波形基联合捷变(joint agility of time width and waveform bases, JATW)的波形构架。基于此构架,以切普扩频(chirp spread spectrum, CSS)和正弦扩频(sinusoidal frequency spread spectrum, SFSS)为波形基,采用变时宽(varied of time width, VTW)参数配置方法,提出基于VTW-CSS/SFSS混合波形的LPD通信波形。采用数学推导辅以数值仿真分析的方法,分析所提出波形的各域能量聚敛特征。理论分析和数值仿真结果表明,相较于CSS和SFSS,所提波形的各域能量聚敛性明显较弱, JATW的波形构架有助于提升通信波形的LPD性能。     

时宽-波形基联合捷变的LPD通信波形

为了提升通信信号的低检测概率(low probability of detection, LPD)性能,从降低通信波形各域能量聚敛性的角度,提出时宽-波形基联合捷变(joint agility of time width and waveform bases, JATW)的波形构架。基于此构架,以切普扩频(chirp spread spectrum, CSS)和正弦扩频(sinusoidal frequency spread spectrum, SFSS)为波形基,采用变时宽(varied of time width, VTW)参数配置方法,提出基于VTW-CSS/SFSS混合波形的LPD通信波形。采用数学推导辅以数值仿真分析的方法,分析所提出波形的各域能量聚敛特征。理论分析和数值仿真结果表明,相较于CSS和SFSS,所提波形的各域能量聚敛性明显较弱, JATW的波形构架有助于提升通信波形的LPD性能。     

Preparation of TiO_2 thin film by the LPD method on functionalized organic self-assembled monolayers

In this paper,uniform titania(TiO2) films have been formed at 50°C on silanol SAMs by the liquid-phase deposition(LPD) method at a temperature below 100℃.OTS(Octadecyltrichloro-Silane) self-assembled monolayers(SAMs) on glass wafers were used as substrates for the deposition of titanium dioxide thin films.This functionalized organic surface has shown to be effective for promoting the growth of films from titanic aqueous solutions by the LPD method at a low temperature below 100°C.The crystal phase composition,microstructure and topography of the as-prepared films were characterized by various techniques,including X-ray diffraction(XRD) ,scanning electron microscopy(SEM) ,and atomic force microscopy(AFM) .The results indicate that the as-prepared thin films are purely crystallized anatase TiO2 constituted by nanorods after being annealed at 500°C.The pH values,concentration of reactants,and deposition temperatures play important roles in the growth of TiO2 thin films.     

Enhanced photocatalytic degradation of tetracycline hydrochloride by molecular imprinted film modified TiO<Subscript>2</Subscript> nanotubes

To enhance the photocatalytic activity of TiO2 nanotubes,tetracycline hydrochloride(TC) molecularly imprinted titania modified TiO2 nanotubes(MIP-TiO2) was prepared by liquid phase deposition,which improved the molecular recognition ability of the photocatalyst toward template molecules.This MIP-TiO2 photocatalyst was characterized by ESEM and XRD,which showed that the imprinted titania was deposited on the nanotube uniformly and was of well-crystalized anatase-type.In the adsorption experiments,MIP-TiO2 exhibited a high adsorption capacity(about 1.6 times higher than that of TiO2 nanotubes) for TC mainly because of its imprinted sites and high surface area.Under UV irradiation MIP-TiO2 showed enhanced photocatalytic activity with an apparent first-order rate constant 1.9-fold that of TiO 2 nanotubes.