Your search keyword '"Mao, J. Y."' showing total 2 results

1. Bright betatron X-ray radiation from a laser-driven-clustering gas target.

Author

Chen LM, Yan WC, Li DZ, Hu ZD, Zhang L, Wang WM, Hafz N, Mao JY, Huang K, Ma Y, Zhao JR, Ma JL, Li YT, Lu X, Sheng ZM, Wei ZY, Gao J, and Zhang J

Subjects

Scattering, Radiation, X-Rays, Electrons, Gases chemistry, Lasers, Particle Accelerators, Photons

Abstract

Hard X-ray sources from femtosecond (fs) laser-produced plasmas, including the betatron X-rays from laser wakefield-accelerated electrons, have compact sizes, fs pulse duration and fs pump-probe capability, making it promising for wide use in material and biological sciences. Currently the main problem with such betatron X-ray sources is the limited average flux even with ultra-intense laser pulses. Here, we report ultra-bright betatron X-rays can be generated using a clustering gas jet target irradiated with a small size laser, where a ten-fold enhancement of the X-ray yield is achieved compared to the results obtained using a gas target. We suggest the increased X-ray photon is due to the existence of clusters in the gas, which results in increased total electron charge trapped for acceleration and larger wiggling amplitudes during the acceleration. This observation opens a route to produce high betatron average flux using small but high repetition rate laser facilities for applications.

Published

2013

2. Application of a transmission crystal x-ray spectrometer to moderate-intensity laser driven sources.

Author

Mao, J. Y., Chen, L. M., Hudson, L. T., Seely, J. F., Zhang, L., Sun, Y. Q., Lin, X. X., and Zhang, J.

Subjects

*DIAGNOSTIC imaging, *SPECTROMETERS, *SPECTRUM analysis instruments, *IRRADIATION, *LASERS

Abstract

In the pursuit of novel, laser-produced x-ray sources for medical imaging applications, appropriate instrumental diagnostics need to be developed concurrently. A type of transmission crystal spectroscopy has previously been demonstrated as a survey tool for sources produced by high-power and high-energy lasers. The present work demonstrates the extension of this method into the study of medium-intensity laser driven hard x-ray sources with a design that preserves resolving power while maintaining high sensitivity. Specifically, spectroscopic measurements of characteristic Kα and Kβ emissions were studied from Mo targets irradiated by a 100 fs, 200 mJ, Ti: sapphire laser with intensity of 1017 W/cm2 to 1018 W/cm2 per shot. Using a transmission curved crystal spectrometer and off-Rowland circle imaging, resolving powers (E/ΔE) of around 300 for Mo Kα2 at 17.37 keV were obtained with an end-to-end spectrometer efficiency of (1.13 ± 0.10) × 10-5. This sensitivity is sufficient for registering x-ray lines with high signal to background from targets following irradiation by a single laser pulse, demonstrating the utility of this method in the study of the development of medium-intensity laser driven x-ray sources. [ABSTRACT FROM AUTHOR]

Published

2012