Objective: To compare the clinical therapeutic effects on the syndrome of L3 transverse process between thick silver warming needling and electric acupuncture. Methods: One hundred and twenty cases of the syndrome of ...Objective: To compare the clinical therapeutic effects on the syndrome of L3 transverse process between thick silver warming needling and electric acupuncture. Methods: One hundred and twenty cases of the syndrome of L3 transverse process were randomized into observation group and the control, 60 cases for each one. Thick silver warming needling was applied in observation group and electric acupuncture in the control. Results: The curative rate was 81.7% in observation group and 58.3% in the control, indicating significant difference (P<0.01). The significant difference in the therapeutic effects between two groups had not been discovered yet for the cases within 3 months of sickness (P>0.05), but, the therapeutic effect in observation group was superior to that in the control for the cases over 3 months of sickness (P<0.01). Conclusion: The therapeutic effects of thick silver warming needling and electric acupuncture were quite advantageous on the syndrome of L3 transverse process, but that of thick silver warming needling was superior to electric acupuncture.展开更多
This paper describes the drift-diffusion theory of the bipolar field-effect transistor (BiFET) with two identical and connected metal-oxide-silicon-gates (MOS-gates) on a thin-pure-base. Analytical solution is obt...This paper describes the drift-diffusion theory of the bipolar field-effect transistor (BiFET) with two identical and connected metal-oxide-silicon-gates (MOS-gates) on a thin-pure-base. Analytical solution is obtained by partitioning the two-dimensional transistor into two one-dimensional problems coupled by the parametric sur- face-electric-potential. Total and component output and transfer currents and conductances versus D. C. voltages from the drift-diffusion theory, and their deviations from the electrochemical (quasi-Fermi) potential-gradient theory,are presented over practical ranges of thicknesses of the silicon base and gate oxide. A substantial contri- bution from the longitudinal gradient of the square of the transverse electric field is shown.展开更多
A low-profile ultra-wideband(UWB)band-stop frequency selective surface(FSS)is designed for S-,C-,X-and Ku-bands communication applications.The FSS is constructed by using square and circular loop elements printed on t...A low-profile ultra-wideband(UWB)band-stop frequency selective surface(FSS)is designed for S-,C-,X-and Ku-bands communication applications.The FSS is constructed by using square and circular loop elements printed on the top and bottom sides of the RO3210 substrate.The FSS has been designed to reduce the electromagnetic interference(EMI)as well as to mitigate the harmful effects of electromagnetic radiation on the human body caused by different radio devices.The dimension and size of the UWB FSS have been reduced to 0.12λ×0.12λand 90%,respectively,as compared to the reported literature.The other advantages of the proposed FSS are that it is low profile,it has a simplified geometry and it ensures better angular and polarization stability of up to 85◦.The-10 and-20 dB bandwidths of the proposed FSS are 146%(2.0-13.0 GHz)and 80%(4.87-11.42 GHz),respectively.Theoretical results have been obtained using ANSYS HFSS and verified through measured results.展开更多
In this paper Substrate Integrated Waveguide-basedfiltenna operating at Ku band is proposed.The model is designed on a low loss dielectric substrate having a thickness of 0.508 mm and comprises of shorting vias along ...In this paper Substrate Integrated Waveguide-basedfiltenna operating at Ku band is proposed.The model is designed on a low loss dielectric substrate having a thickness of 0.508 mm and comprises of shorting vias along two edges of the substrate walls.To realize a bandpassfilter,secondary shorting vias are placed close to primary shorting vias.The dimension and position of the vias are carefully analyzed for Ku band frequencies.The model is fabricated on Roger RT/duroid 5880 and the performance characteristics are measured.The proposed model achieves significant impedance characteristics with wider bandwidth in the Ku band.The model also achieves a maximum gain of 7.46 dBi in the operating band thus making it suitable for Ku-band applications.Substrate Integrated Waveguide(SIW)Structures possess most of the advantages over conventional radiofrequency waveguides since they have high power management capacity with self-consistent electrical shielding.The most noteworthy advantage of SIW,it can able to integrate all the components on the same substrate,both passive and active components.展开更多
Surface plasmon polaritons(SPPs)on metal surfaces excited by p-polarized light have long been a crucial method for achieving lightmatter interactions due to their small mode-field volumes and strong optical localizati...Surface plasmon polaritons(SPPs)on metal surfaces excited by p-polarized light have long been a crucial method for achieving lightmatter interactions due to their small mode-field volumes and strong optical localization properties.However,the significant losses generated in metals greatly limit the intensity of the SPPs and their potential application scenarios.In this paper,we leverage the high refractive index properties of two-dimensional(2D)transition metal dichalcogenides(TMDCs)to generate transverse-electric(TE)polarized waves excited by s-polarized light on the surface of gold nanofilms by accurately controlling the number of the TMDC layers and the spatial refractive index variations with the structure.Unlike the SPPs excited by p-polarized light,the TE surface waves on the surface of the gold film exhibit low loss and high quality factor(Q factor).Moreover,the difference in refractive index causes the TE surface waves to be electromagnetically separated in space,lifting the electric field component in the excited TE surface waves from the surface of the metal film into the TMDCs,thereby minimizing the ohmic loss in the metal and enabling strong coupling between the TE surface waves and the two-exciton states(A-exciton and B-exciton)in the TMDCs.Experimental results demonstrated the strong coupling of TE waves with double excitons(A-exciton and B-exciton)in multilayer MoS_(2) by exciting the Au/MoS_(2) heterostructure using a KretschmannRaether configuration,showing ultrahigh Rabi splitting up to about 310 meV.Furthermore,the number of MoS_(2) layers can be accurately determined by measuring the redshift of the Rabi splitting peak of the strong coupling spectra in the Au/MoS_(2) heterostructure.Our findings open a new avenue for manipulating strong exciton-photon coupling in 2D materials and offer a novel approach for accurately characterizing the thickness of TMDCs.展开更多
The localized surface plasmon resonance metasurface is a research hotspot in the sensing field since it can enhance the light-matter interaction in the nanoscale,but the wavelength sensitivity is far from comparable w...The localized surface plasmon resonance metasurface is a research hotspot in the sensing field since it can enhance the light-matter interaction in the nanoscale,but the wavelength sensitivity is far from comparable with that of prism-coupled surface plasmon polariton(SPP).Herein,we propose and demonstrate an ultrasensitive angular interrogation sensor based on the transverse electric mode surface lattice resonance(SLR)mechanism in an all-metal metasurface.In theory,we derive the sensitivity function in detail and emphasize the refraction effect at the air-solution interface,which influences the SLR position and improves the sensitivity performance greatly in the wide-angle.In the measurement,a broadband light source substitutes the single-wavelength laser generally used in traditional angular sensing,and the measured SLR wavelength of broadband illuminant at normal incidence is defined as the single wavelength,avoiding the sensitivity loss from the large angle.The experimental sensitivity can reach 4304.35°/RIU,promoting an order of magnitude compared to those of SPP-sensors.This research provides a novel theory as well as the corresponding crucial approach to achieving ultrasensitive angular sensing.展开更多
文摘Objective: To compare the clinical therapeutic effects on the syndrome of L3 transverse process between thick silver warming needling and electric acupuncture. Methods: One hundred and twenty cases of the syndrome of L3 transverse process were randomized into observation group and the control, 60 cases for each one. Thick silver warming needling was applied in observation group and electric acupuncture in the control. Results: The curative rate was 81.7% in observation group and 58.3% in the control, indicating significant difference (P<0.01). The significant difference in the therapeutic effects between two groups had not been discovered yet for the cases within 3 months of sickness (P>0.05), but, the therapeutic effect in observation group was superior to that in the control for the cases over 3 months of sickness (P<0.01). Conclusion: The therapeutic effects of thick silver warming needling and electric acupuncture were quite advantageous on the syndrome of L3 transverse process, but that of thick silver warming needling was superior to electric acupuncture.
文摘This paper describes the drift-diffusion theory of the bipolar field-effect transistor (BiFET) with two identical and connected metal-oxide-silicon-gates (MOS-gates) on a thin-pure-base. Analytical solution is obtained by partitioning the two-dimensional transistor into two one-dimensional problems coupled by the parametric sur- face-electric-potential. Total and component output and transfer currents and conductances versus D. C. voltages from the drift-diffusion theory, and their deviations from the electrochemical (quasi-Fermi) potential-gradient theory,are presented over practical ranges of thicknesses of the silicon base and gate oxide. A substantial contri- bution from the longitudinal gradient of the square of the transverse electric field is shown.
基金The work was supported by King Abdulaziz University,Jeddah,Kingdom of Saudi Arabia.M.F.U.Butt would like to gratefully acknowledge the Higher Education Commission(HEC),Government of Pakistan’s financial support through its Post-Doctoral Fellowship Program(PDFP)Grant.
文摘A low-profile ultra-wideband(UWB)band-stop frequency selective surface(FSS)is designed for S-,C-,X-and Ku-bands communication applications.The FSS is constructed by using square and circular loop elements printed on the top and bottom sides of the RO3210 substrate.The FSS has been designed to reduce the electromagnetic interference(EMI)as well as to mitigate the harmful effects of electromagnetic radiation on the human body caused by different radio devices.The dimension and size of the UWB FSS have been reduced to 0.12λ×0.12λand 90%,respectively,as compared to the reported literature.The other advantages of the proposed FSS are that it is low profile,it has a simplified geometry and it ensures better angular and polarization stability of up to 85◦.The-10 and-20 dB bandwidths of the proposed FSS are 146%(2.0-13.0 GHz)and 80%(4.87-11.42 GHz),respectively.Theoretical results have been obtained using ANSYS HFSS and verified through measured results.
文摘In this paper Substrate Integrated Waveguide-basedfiltenna operating at Ku band is proposed.The model is designed on a low loss dielectric substrate having a thickness of 0.508 mm and comprises of shorting vias along two edges of the substrate walls.To realize a bandpassfilter,secondary shorting vias are placed close to primary shorting vias.The dimension and position of the vias are carefully analyzed for Ku band frequencies.The model is fabricated on Roger RT/duroid 5880 and the performance characteristics are measured.The proposed model achieves significant impedance characteristics with wider bandwidth in the Ku band.The model also achieves a maximum gain of 7.46 dBi in the operating band thus making it suitable for Ku-band applications.Substrate Integrated Waveguide(SIW)Structures possess most of the advantages over conventional radiofrequency waveguides since they have high power management capacity with self-consistent electrical shielding.The most noteworthy advantage of SIW,it can able to integrate all the components on the same substrate,both passive and active components.
基金Natural Science Foundation of Guangdong Province(2025A1515012259)National Natural Science Foundation of China(12274148,12374347,12174123).
文摘Surface plasmon polaritons(SPPs)on metal surfaces excited by p-polarized light have long been a crucial method for achieving lightmatter interactions due to their small mode-field volumes and strong optical localization properties.However,the significant losses generated in metals greatly limit the intensity of the SPPs and their potential application scenarios.In this paper,we leverage the high refractive index properties of two-dimensional(2D)transition metal dichalcogenides(TMDCs)to generate transverse-electric(TE)polarized waves excited by s-polarized light on the surface of gold nanofilms by accurately controlling the number of the TMDC layers and the spatial refractive index variations with the structure.Unlike the SPPs excited by p-polarized light,the TE surface waves on the surface of the gold film exhibit low loss and high quality factor(Q factor).Moreover,the difference in refractive index causes the TE surface waves to be electromagnetically separated in space,lifting the electric field component in the excited TE surface waves from the surface of the metal film into the TMDCs,thereby minimizing the ohmic loss in the metal and enabling strong coupling between the TE surface waves and the two-exciton states(A-exciton and B-exciton)in the TMDCs.Experimental results demonstrated the strong coupling of TE waves with double excitons(A-exciton and B-exciton)in multilayer MoS_(2) by exciting the Au/MoS_(2) heterostructure using a KretschmannRaether configuration,showing ultrahigh Rabi splitting up to about 310 meV.Furthermore,the number of MoS_(2) layers can be accurately determined by measuring the redshift of the Rabi splitting peak of the strong coupling spectra in the Au/MoS_(2) heterostructure.Our findings open a new avenue for manipulating strong exciton-photon coupling in 2D materials and offer a novel approach for accurately characterizing the thickness of TMDCs.
基金supported by the National Key R&D Program of China(Grant No.2021YFB3200100)the National Natural Science Foundation of China(Grant No.61931018 and 61974004)。
文摘The localized surface plasmon resonance metasurface is a research hotspot in the sensing field since it can enhance the light-matter interaction in the nanoscale,but the wavelength sensitivity is far from comparable with that of prism-coupled surface plasmon polariton(SPP).Herein,we propose and demonstrate an ultrasensitive angular interrogation sensor based on the transverse electric mode surface lattice resonance(SLR)mechanism in an all-metal metasurface.In theory,we derive the sensitivity function in detail and emphasize the refraction effect at the air-solution interface,which influences the SLR position and improves the sensitivity performance greatly in the wide-angle.In the measurement,a broadband light source substitutes the single-wavelength laser generally used in traditional angular sensing,and the measured SLR wavelength of broadband illuminant at normal incidence is defined as the single wavelength,avoiding the sensitivity loss from the large angle.The experimental sensitivity can reach 4304.35°/RIU,promoting an order of magnitude compared to those of SPP-sensors.This research provides a novel theory as well as the corresponding crucial approach to achieving ultrasensitive angular sensing.
