With a three-dimensional semiclassical ensemble method, we theoretically investigated the nonsequential double ionization of Ar driven by the spatially inhomogeneous few-cycle negatively chirped laser pulses. Our resu...With a three-dimensional semiclassical ensemble method, we theoretically investigated the nonsequential double ionization of Ar driven by the spatially inhomogeneous few-cycle negatively chirped laser pulses. Our results show that the recollision time window can be precisely controlled within an isolated time interval of several hundred attoseconds, which is useful for understanding the subcycle correlated electron dynamics. More interestingly, the correlated electron momentum distribution (CEMD) exhibits a strong dependence on laser intensity. That is, at lower laser intensity, CEMD is located in the first quadrant. As the laser intensity increases,CEMD shifts almost completely to the second and fourth quadrants, and then gradually to the third quadrant.The underlying physics governing the CEMD's dependence on laser intensity is explained.展开更多
To enhance the reliability of aluminum alloy welding quality,this study investigates the effects of gas pulse parameters on the arc characteristics and weld quality in pulsed plasma gas variable polarity plasma arc we...To enhance the reliability of aluminum alloy welding quality,this study investigates the effects of gas pulse parameters on the arc characteristics and weld quality in pulsed plasma gas variable polarity plasma arc welding(PPG-VPPAW)of 5051 aluminum alloy.Results showed that increasing the gas duty cycle enhanced arc pressure fluctuation but reduced average arc pressure.When the duty cycle exceeded 1/2,excessive pressure fluctuations destabilized the weld pool.Arc voltage fluctuations also intensified with larger duty cycles,reducing arc heat input and stability.Severe variations in arc divergence and high-temperature area were observed at duty cycles above 1/2,leading to poor heat transfer.Weld morphology confirmed these findings:duty cycles of 1/5 and 2/5 produced uniform surfaces with dense fish-scale ripples,while 3/5 and 4/5 introduced defects such as humping and undercut.Mechanical testing showed that conventional variable polarity plasma arc welding(VPPAW)joints reached 262 MPa tensile strength and 18.3%elongation,corresponding to 79.8%and 85.1%of base metal values.At a duty cycle of 2/5,the tensile strength increased to 297 MPa and the elongation to 21.5%,representing the best overall performance.Variations in the gas pulse frequency did not significantly affect the average arc pressure or arc voltage.However,as the gas pulse frequency decreased,the fluctuation frequency of the arc pressure and arc voltage also decreased,while the fluctuation amplitude of the arc voltage increased.At 8 Hz,the tensile strength and elongation increased by 13.4%and 17.5%,respectively,compared with lower frequencies(4 and 2.6 Hz).展开更多
We report an experimental generation of few-cycle pulses at 53 MHz repetition rate. Femtosecond pulses with pulse duration of 181 fs are firstly generated from an optical parametric oscillator(OPO). Then, the pulses a...We report an experimental generation of few-cycle pulses at 53 MHz repetition rate. Femtosecond pulses with pulse duration of 181 fs are firstly generated from an optical parametric oscillator(OPO). Then, the pulses are compressed to subthree-cycle with a hybrid compressor composed of a commercial single-mode fiber and a pair of prisms, taking advantage of the tunability of the OPO and the numerical simulating of the nonlinear compression system. Our compressed optical pulses possess an ultrabroadband spectrum covering over 470 nm bandwidth(at-10 dB), and the output intensity fluctuation of our system is less than 0.8%. These results show that our system can effectively generate few-cycle pulses at a repetition rate of tens of megahertz with excellent long-term stability, which could benefit future possible applications.展开更多
A new method of using dynamic equalization technology to realize the maximum energy storage utilization was presented to overcome the influence of the disaccord among units of series super capacitor (SC) bank and en...A new method of using dynamic equalization technology to realize the maximum energy storage utilization was presented to overcome the influence of the disaccord among units of series super capacitor (SC) bank and ensure that the units could work safely. By considering in combination with the high specific power, low working voltage, wide voltage working range and noulinear external characteristics, we present constant duty ratio pulse frequency modulation mode and fuzzy control method based on state prediction in the active equalization circuit and accomplish the software and hardware design for the equalization system. The simulation analysis and experiment results of constant current muhi-cycle and variable current multi-cycle charge-discharge process verify the validity of the design.展开更多
基金supported by the National Natural Science Foundation of China (Grant No. 12074329)Nanhu Scholars Program for Young Scholars of Xinyang Normal University。
文摘With a three-dimensional semiclassical ensemble method, we theoretically investigated the nonsequential double ionization of Ar driven by the spatially inhomogeneous few-cycle negatively chirped laser pulses. Our results show that the recollision time window can be precisely controlled within an isolated time interval of several hundred attoseconds, which is useful for understanding the subcycle correlated electron dynamics. More interestingly, the correlated electron momentum distribution (CEMD) exhibits a strong dependence on laser intensity. That is, at lower laser intensity, CEMD is located in the first quadrant. As the laser intensity increases,CEMD shifts almost completely to the second and fourth quadrants, and then gradually to the third quadrant.The underlying physics governing the CEMD's dependence on laser intensity is explained.
基金supported by the National Natural Science Foundation of China(Grant No.52275302 and 52322508)the R&D Program of Beijing Municipal Education Commission(Grant No.KZ20231000519)。
文摘To enhance the reliability of aluminum alloy welding quality,this study investigates the effects of gas pulse parameters on the arc characteristics and weld quality in pulsed plasma gas variable polarity plasma arc welding(PPG-VPPAW)of 5051 aluminum alloy.Results showed that increasing the gas duty cycle enhanced arc pressure fluctuation but reduced average arc pressure.When the duty cycle exceeded 1/2,excessive pressure fluctuations destabilized the weld pool.Arc voltage fluctuations also intensified with larger duty cycles,reducing arc heat input and stability.Severe variations in arc divergence and high-temperature area were observed at duty cycles above 1/2,leading to poor heat transfer.Weld morphology confirmed these findings:duty cycles of 1/5 and 2/5 produced uniform surfaces with dense fish-scale ripples,while 3/5 and 4/5 introduced defects such as humping and undercut.Mechanical testing showed that conventional variable polarity plasma arc welding(VPPAW)joints reached 262 MPa tensile strength and 18.3%elongation,corresponding to 79.8%and 85.1%of base metal values.At a duty cycle of 2/5,the tensile strength increased to 297 MPa and the elongation to 21.5%,representing the best overall performance.Variations in the gas pulse frequency did not significantly affect the average arc pressure or arc voltage.However,as the gas pulse frequency decreased,the fluctuation frequency of the arc pressure and arc voltage also decreased,while the fluctuation amplitude of the arc voltage increased.At 8 Hz,the tensile strength and elongation increased by 13.4%and 17.5%,respectively,compared with lower frequencies(4 and 2.6 Hz).
基金This work was supported by the National Natural Science Foundation of China(NSFC)(Nos.61827821 and 62105237)the Research and Development Program in Key Areas of Guangdong Province,China(No.2020B090922004).
文摘We report an experimental generation of few-cycle pulses at 53 MHz repetition rate. Femtosecond pulses with pulse duration of 181 fs are firstly generated from an optical parametric oscillator(OPO). Then, the pulses are compressed to subthree-cycle with a hybrid compressor composed of a commercial single-mode fiber and a pair of prisms, taking advantage of the tunability of the OPO and the numerical simulating of the nonlinear compression system. Our compressed optical pulses possess an ultrabroadband spectrum covering over 470 nm bandwidth(at-10 dB), and the output intensity fluctuation of our system is less than 0.8%. These results show that our system can effectively generate few-cycle pulses at a repetition rate of tens of megahertz with excellent long-term stability, which could benefit future possible applications.
基金the National High Technology Research and Development Programme of China(No.2002AA001028)the Tenth Five-year Industry Item of the Tackling Key Problem of Heilongjiang Province(No.CA02A201)
文摘A new method of using dynamic equalization technology to realize the maximum energy storage utilization was presented to overcome the influence of the disaccord among units of series super capacitor (SC) bank and ensure that the units could work safely. By considering in combination with the high specific power, low working voltage, wide voltage working range and noulinear external characteristics, we present constant duty ratio pulse frequency modulation mode and fuzzy control method based on state prediction in the active equalization circuit and accomplish the software and hardware design for the equalization system. The simulation analysis and experiment results of constant current muhi-cycle and variable current multi-cycle charge-discharge process verify the validity of the design.
