wang yichao1 zheng jian1 yu changxuan1 jiang xiaohua, zheng zhij ian, et al. EXPERIMENTAL STUDY ON TIMEINTEGRATED SPECTRUM OF LIGHT OF AuDISK IRRADIATED BY 1.053μm LASER[J]. High Power Laser and Particle Beams, 1999, 11.
Citation:
wang yichao1 zheng jian1 yu changxuan1 jiang xiaohua, zheng zhij ian, et al. EXPERIMENTAL STUDY ON TIMEINTEGRATED SPECTRUM OF LIGHT OF AuDISK IRRADIATED BY 1.053μm LASER[J]. High Power Laser and Particle Beams, 1999, 11.
wang yichao1 zheng jian1 yu changxuan1 jiang xiaohua, zheng zhij ian, et al. EXPERIMENTAL STUDY ON TIMEINTEGRATED SPECTRUM OF LIGHT OF AuDISK IRRADIATED BY 1.053μm LASER[J]. High Power Laser and Particle Beams, 1999, 11.
Citation:
wang yichao1 zheng jian1 yu changxuan1 jiang xiaohua, zheng zhij ian, et al. EXPERIMENTAL STUDY ON TIMEINTEGRATED SPECTRUM OF LIGHT OF AuDISK IRRADIATED BY 1.053μm LASER[J]. High Power Laser and Particle Beams, 1999, 11.
Timeintegrated spectrum of 3ω0/2 light in plasma produced by 1.053μm laser irradiating on Audisk is shown in this paper. Based on the measurement of redshifted p eak and blueshifted peak. The temperature of electron in interacti on region and the plasma expansion speed in onequarter critical electron density layer are obtained. The experiment results agree well with nonlinear saturation theory of Two PlasmonDecay.
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