The properties of N-doped diamond-like carbon films prepared by helicon wave plasma chemical vapor deposition

In this paper, N-doped diamond-like carbon(DLC) films were deposited on silicon substrates by using helicon wave plasma chemical vapor deposition(HWP-CVD) with the Ar/CH_4/N_2 mixed gas. The surface morphology, structural and mechanical properties of the N-doped DLC films were investigated in detail by scanning electron microscopy(SEM), x-ray photoelectron spectroscopy(XPS), Raman spectra, and atomic force microscopy(AFM). It can be observed from SEM images that surface morphology of the films become compact and uniform due to the incorporation of N. The maximum of the deposition rate of the films is 143 nm min^(-1), which is related to the high plasma density. The results of XPS show that the N incorporates in the films and the C-C sp^3 bond content increases firstly up to the maximum(20%) at 10 sccm of N_2 flow rate, and then decreases with further increase in the N_2 flow rate. The maximum Young's modulus of the films is obtained by the doping of N and reaches 80 GPa at 10 sccm of N_2 flow rate, which is measured by AFM in the scanning probe microscope mode. Meanwhile, friction characteristic of the N-doped DLC films reaches a minimum value of 0.010.

Development of a helicon-wave excited plasma facility with high magnetic field for plasma-wall interactions studies

The high magnetic field helicon experiment system is a helicon wave plasma（HWP）source device in a high axial magnetic field（B0）developed for plasma–wall interactions studies for fusion reactors.This HWP was realized at low pressure（5×10^-3-10 Pa）and a RF（radio frequency,13.56 MHz）power（maximum power of 2 k W）using an internal right helical antenna（5 cm in diameter by 18 cm long）with a maximum B0of 6300 G.Ar HWP with electron density～10^18–10^20m^-3 and electron temperature～4–7 e V was produced at high B0 of 5100 G,with an RF power of 1500 W.Maximum Ar^＋ion flux of 7.8×10^23m^-2s^-1 with a bright blue core plasma was obtained at a high B0 of 2700 G and an RF power of 1500 W without bias.Plasma energy and mass spectrometer studies indicate that Ar^＋ ion-beams of 40.1 eV are formed,which are supersonic（～3.1cs）.The effect of Ar HWP discharge cleaning on the wall conditioning are investigated by using the mass spectrometry.And the consequent plasma parameters will result in favorable wall conditioning with a removal rate of 1.1×10^24N2/m^2 h.

The effect of atmospheric pressure glow discharge plasma treatment on the dyeing properties of silk fabric

In this study,the effects of plasma treatment parameters on surface morphology,chemical constituent,dycabiliiy and color fastness of silk fabric were investigated.Atmospheric pressure glow discharge plasma generated with different applied voltages(0 kV to 45 kV)was used to treat the surface of silk fabrics.C I Natural Yellow 3 was used to dye untreated and plasma-treated silk fabrics.The physical analysis based on scanning electron microscopy showed that the surface of silk fabrics was affected by plasma treatment.The chemical analysis was investigated with x-ray photi>elcctron spectroscopy and attenuated total reflection Fourier transform infrared spectroscopy.The results showed that the content of C Is decreased with the increasing applied voltage,the content of N Is and O Is increased with the increasing applied voltage.The increasing K/S values represented that the dyeability of silk fabrics was improved after plasma treatment.The color fastness to dry and wet rubbing was decreased after plasma treatment.

Regulation of the density distribution of a strongly dissipative plasma by a pulsed magnetic field

A pulsed transverse magnetic field with pulse width of 12 ms and magnitude of 2 T was used to modify the density distribution of a weakly-ionized plasma flow with strong collisions between the charged particles and neutrals.The morphology of the plasma is changed substantially,with the density increased upstream and decreased downstream.Meanwhile,the plasma toward the axis contracts laterally and gradually converges to a collimated flow.In addition,a drift wave is observed to be excited in the inhomogeneous plasma by the magnetic field.

Rapidly Synthesis of Nanocrystalline Diamond Films by Helicon Wave Plasma

A new technique of the synthesis of Nanocrystalline Diamond(NCD)Films by helicon wave plasma(HWP)chemical vapor deposition at room temperature was reported.The growth morphology and the roughness of NCD samples was characterized using filed emission scanning electron microscopy(SEM-SU8010)and atom force microscopy(AFM),respectively.The results show the growth rate of the film was very fast,about 833nm/min.Typical G,D

High magnetic field helicon plasma discharge for plasma-wall interaction studies

Dear Editors,Plasma-Wall Interactions(PWIs)are important for the development of magnetic confinement fusion devices such as International Thermonuclear Experimental Reactor(ITER),as they can release impurities into the plasma,erode the surfaces,or produce retention of fuel in the wall。

Separation of Revenue and Expenditure increases first contact care in community health centers among community residents

Objective:To evaluate the impact of Separation of Revenue and Expenditure(SRE)on the first contact care in community health centers(CHCs)among community residents.Methods:Data was obtained through questionnaire survey before and after the pilot.Residents who visited CHCs within two weeks before the conduction of the surveys were included in this study.This study employed a pre-post quasi-experiment design and multiple regression models were specified based on the Andersen theoretical framework.Results:Multiple logistic regression analysis showed that the rate of first contact care in CHCs increased by 28.3%(P=0.000).Conclusions:SRE has increased the first contact care in CHCs among the community residents.