The wMPS is a laser-based measurement system used for large scale metrology.However,it is susceptible to external factors such as vibrations,which can lead to unreliable measurements.This paper presents a fault diagno...The wMPS is a laser-based measurement system used for large scale metrology.However,it is susceptible to external factors such as vibrations,which can lead to unreliable measurements.This paper presents a fault diagnosis and separation method which can counter this problem.To begin with,the paper uses simple models to explain the fault diagnosis and separation methods.These methods are then mathematically derived using statistical analysis and the principles of the wMPS.A comprehensive solution for fault diagnosis and separation is proposed,considering the characteristics of the wMPS.The effectiveness of this solution is verified through experimental observations.It can be concluded that this approach can detect and separate false observations,thereby enhancing the reliability of the wMPS.展开更多
Silane(SiH4)is a promising hydrogen-rich compound for pursing high temperature superconducting.Previous high pressure measurements of Raman,x-ray diffraction and theoretical studies on SiH4 mainly focused on its polym...Silane(SiH4)is a promising hydrogen-rich compound for pursing high temperature superconducting.Previous high pressure measurements of Raman,x-ray diffraction and theoretical studies on SiH4 mainly focused on its polymorphic structures above 50 GPa,while the structure and the stability under lower pressure range are still unclear.Here we report an investigation of condensed SiH4 by Brillouin scattering measurements at high temperature up to 407 K and high pressure up to 18 GPa.Brillouin scattering frequencies of fluid SiH4 under compression are obtained under isothermal conditions of 300 K,359 K and 407 K.The SiH4 becomes unstable with increasing temperature and subsequently decomposes into silicon and H2.We find that compression at room temperature induces two velocity anomalies corresponding to a fluid-solid state transition and a phaseⅣto phase V transition,respectively.Brillouin scattering spectra has been a powerful tool to investigate the fruitful phases and structure transitions in the hydrogen-rich compound under extreme conditions.展开更多
文摘The wMPS is a laser-based measurement system used for large scale metrology.However,it is susceptible to external factors such as vibrations,which can lead to unreliable measurements.This paper presents a fault diagnosis and separation method which can counter this problem.To begin with,the paper uses simple models to explain the fault diagnosis and separation methods.These methods are then mathematically derived using statistical analysis and the principles of the wMPS.A comprehensive solution for fault diagnosis and separation is proposed,considering the characteristics of the wMPS.The effectiveness of this solution is verified through experimental observations.It can be concluded that this approach can detect and separate false observations,thereby enhancing the reliability of the wMPS.
基金Supported by the National Key Research and Development Program(Grant No.2017YFA0403704)the National Natural Science Foundation of China(Grant Nos.11474127,11574112,11274137,and 11504127)+1 种基金the Program for Changjiang Scholars and Innovative Research Team in University(Grant No.IRT1132)China Postdoctoral Science Foundation(Grant No.2015M570265)。
文摘Silane(SiH4)is a promising hydrogen-rich compound for pursing high temperature superconducting.Previous high pressure measurements of Raman,x-ray diffraction and theoretical studies on SiH4 mainly focused on its polymorphic structures above 50 GPa,while the structure and the stability under lower pressure range are still unclear.Here we report an investigation of condensed SiH4 by Brillouin scattering measurements at high temperature up to 407 K and high pressure up to 18 GPa.Brillouin scattering frequencies of fluid SiH4 under compression are obtained under isothermal conditions of 300 K,359 K and 407 K.The SiH4 becomes unstable with increasing temperature and subsequently decomposes into silicon and H2.We find that compression at room temperature induces two velocity anomalies corresponding to a fluid-solid state transition and a phaseⅣto phase V transition,respectively.Brillouin scattering spectra has been a powerful tool to investigate the fruitful phases and structure transitions in the hydrogen-rich compound under extreme conditions.
