Your search keyword '"Deng, Z. G."' showing total 11 results

1. A compact online proton spectrometer for diagnosis of picosecond intense-laser accelerated protons.

Author

Teng, J., Shan, L. Q., Zhu, B., Deng, Z. G., He, S. K., Yuan, Z. Q., Qi, W., Wang, H. L., Wei, H., Yan, Y. H., Huang, H., Zhang, T. K., Wang, W. W., Yi, T., Zhang, F., Yu, M. H., Yang, L., Lu, F., Yang, Z. H., and Zhang, B.

Subjects

PROTONS, MICROCHANNEL plates, LASER-plasma interactions, ELECTROMAGNETIC pulses, SPECTROMETERS, SCINTILLATORS, CCD cameras, IR spectrometers

Abstract

A compact online proton spectrometer based on a CMOS plate detector was proposed for the diagnosis of picosecond intense-laser accelerated protons. Inside the CMOS plate detector, a composite structure that composed of a scintillator screen, a fiber optic plate (FOP), and a CMOS sensor was designed to detect the protons safely and efficiently. The scintillator screen converted the incident protons to visible light, which, in turn, was collected by using the FOP and detected by using the CMOS sensor. An additional aluminum housing was designed to decrease the strong electromagnetic pulse (EMP) impact on the electronic readout system from picosecond laser–plasma interaction. This online spectrometer is compact and cost-effective than the system based on the micro-channel plate or scintillator screen in combination with an electron multiplying CCD camera and has better resistance to radiation damage than the system based on a single CMOS sensor. [ABSTRACT FROM AUTHOR]

Published

2023

2. Enhancement of target normal sheath acceleration in laser multi-channel target interaction.

Author

Zou, D. B., Yu, D. Y., Jiang, X. R., Yu, M. Y., Chen, Z. Y., Deng, Z. G., Yu, T. P., Yin, Y., Shao, F. Q., Zhuo, H. B., Zhou, C. T., and Ruan, S. C.

Subjects

PONDEROMOTIVE force, LASERS, HOT carriers, PARTICLE beam bunching, ENERGY conversion, ULTRASHORT laser pulses

Abstract

Target-normal sheath acceleration (TNSA) of ions by >100-fs relativistic laser pulses irradiating a multichannel target consisting of a row of parallel long wires and a plane back foil is studied. Two-dimensional particle-in-cell simulations show that the laser light pulls out from the wires a large number of dense hot attosecond electron bunches, which are synergetically accelerated forward by the relativistic ponderomotive force of the laser as well as the longitudinal electric field of a transverse magnetic mode that is excited in the vacuum channels between the wires. These electrons are characterized by a distinct two-temperature energy spectrum, with the temperature of the more energetic electrons close to twice the ponderomotive potential energy. After penetrating through the foil, they induce behind its rear surface a sheath electric field that is both stronger and frontally more extended than that without the channels. As a result, the TNSA ions have much higher maximum energy and the laser-to-ion energy conversion efficiency is also much higher. It is found that a laser of intensity 1.37 × 1020 W/cm2, duration 165 fs, and energy 25.6 J can produce 85 MeV protons and 31 MeV/u carbon ions, at 30% laser-to-ion energy conversion efficiency. The effects of the channel size and laser polarization on the TNSA ions are also investigated. [ABSTRACT FROM AUTHOR]

Published

2019

3. Generating bright gamma-ray pulses via ultra-intense laser colliding with a flying plasma layer.

Author

Zhang, Z. M., Teng, J., Zhang, B., Deng, Z. G., He, S. K., Cui, B., Hong, W., Zhou, W. M., and Gu, Y. Q.

Subjects

SYNCHROTRON radiation, LASER-plasma interactions, GAMMA-ray scattering, ENERGY transfer, QUANTUM electrodynamics

Abstract

With the forthcoming laser intensities (I ≥ 1023 W/cm2), synchrotron radiation in a laser-plasma interaction has attracted particular interest because it can lead to an extremely bright source of γ-rays. Here, a scheme to generate a bright γ-ray pulse with high efficiency is proposed and numerically demonstrated. Using a circularly polarized (CP) laser pulse impinged on a thin foil, a relativistic flying plasma layer is formed. With another counterpropagating CP pulse colliding with the flying layer, it is found that the electrons are efficiently accelerated in the longitudinal direction by the space-charge field. The energetic electrons interact with the counterpropagating CP pulse, producing ultra-brilliant (∼1024 photons/s/mm2/mrad2/0.1%BW) highly dense (∼270nc) femtosecond (∼5 fs) γ-ray pulses. At a moderate laser intensity of 4 × 1022 W/cm2, the fraction of laser energy transferred into the γ-ray pulse is as high as 10%, which is comparable to that previously predicted for an order of magnitude higher in laser intensity. The enhanced γ-photon emission might pave the way for its potential applications in the near future. [ABSTRACT FROM AUTHOR]

Published

2018

4. Generation of high-power few-cycle lasers via Brillouin-based plasma amplification.

Author

Zhang, Z. M., Zhang, B., Hong, W., Deng, Z. G., Teng, J., He, S. K., Zhou, W. M., and Gu, Y. Q.

Subjects

BRILLOUIN scattering, LIGHT scattering, GAUSSIAN distribution, CONTINUOUS distributions, PULSE amplifiers

Abstract

Strong coupling stimulated Brillouin backscattering (sc-SBS) in plasma is potentially an efficient method of amplifying laser pulses to reach exawatt powers. Here, we report on a new regime of brillouin-based plasma amplification, producing an amplified pulse with a duration of 5 fs and unfocused intensity of 6x1017 W/cm2. The results are obtained from 2D particle-in-cell simulations, using two circularly polarized pump and seed pulse with Gaussian transverse profile, both at an intensity of 2.74x1016 W/cm2, counter-propagating in a 0.3nc plasma. The significant compression of amplified seed is achieved as a result of sc-SBS amplification as well as additional compression by the interplay between self-phase modulation and negative group delay dispersion. We show that the amplified seed retains high beam qualities since the filamentation can be prevented due to the fast compression. This scheme may pave the way for few-cycle laser pulses to reach exawatt or even zetawatt regime. [ABSTRACT FROM AUTHOR]

Published

2017

5. High-charge energetic ions generated by intersecting laser pulses.

Author

Yang, L., Deng, Z. G., Yu, M. Y., and Wang, X. G.

Subjects

*LASER pulses, *DENSE plasmas, *HEATING, *ELECTRON accelerators, *ELECTRIC charge

Abstract

Ion acceleration from the interaction of two intersecting intense laser pulses with an overdense plasma is investigated using a three-dimensional particle-in-cell simulation. It is found that, comparing with the single-pulse case, the charge of the resulting energetic ion bunch can be increased by more than an order of magnitude without much loss of quality. Dependence of the ion charge on the interaction parameters, including separation distance and incidence angles of the lasers, is considered. It is shown that the charge of the accelerated ion bunch can be optimized by controlling the degree of laser overlapping. The improved performance can be attributed to the enhanced laser intensity as well as stochastic heating of the accelerated electrons. Since at present the intensity of readily available lasers is limited, the two pulse scheme should be useful for realizing higher laser intensity in order to achieve higher-energy target normal sheath acceleration ions. [ABSTRACT FROM AUTHOR]

Published

2016

6. Proton beam shaped by "particle lens" formed by laser-driven hot electrons.

Author

Zhai, S. H., Shen, B. F., Wang, W. P., Zhang, H., He, S. K., Lu, F., Zhang, F. Q., Deng, Z. G., Dong, K. G., Wang, S. Y., Zhou, K. N., Xie, N., Wang, X. D., Zhang, L. G., Huang, S., Liu, H. J., Zhao, Z. Q., Gu, Y. Q., Zhang, B. H., and Xu, Z. Z.

Subjects

PROTON beams, HOT carriers, ELECTRIC fields, FEMTOSECOND lasers, MOLECULAR beam epitaxy

Abstract

Two-dimensional tailoring of a proton beam is realized by a "particle lens" in our experiment. A large quantity of electrons, generated by an intense femtosecond laser irradiating a polymer target, produces an electric field strong enough to change the trajectory and distribution of energetic protons flying through the electron area. The experiment shows that a strip pattern of the proton beam appears when hot electrons initially converge inside the plastic plate. Then the shape of the proton beam changes to a "fountain-like" pattern when these hot electrons diffuse after propagating a distance. [ABSTRACT FROM AUTHOR]

Published

2016

7. Major Dry-Merger Rate and Extremely Massive Dry-Mergers of BCGs.

Author

Liu, F. S., Deng, Z. G., and Xia, X. Y.

Subjects

*GALAXIES, *ASTRONOMY, *CLUSTER analysis (Statistics), *REDSHIFT, *ASTROPHYSICS, *METAPHYSICAL cosmology

Abstract

Possible ongoing dry merger pairs of the early type Brightest Cluster Galaxies (BCGs) have been searched from a sample of 515 BCGs with redshifts between 0.03 to 0.12 selected from the C4 cluster catalogue. The results are compared with those of GEMS (Galaxy Evolution from Morphology and SEDs Survey) [1]. We find that BCGs have much higher ongoing merger fraction than that of luminous early-type galaxies from GEMS. This may infer that BCGs have higher dry-merger rate. We also found the trendence that the BCGs in richer clusters tend to have higher merger fraction than that in poorer clusters. With careful inspection, we find that extremely massive major dry mergers do exist in the BCGs sample which shows that they are not rare locally and may have important implication on the evolution of BCGs. [ABSTRACT FROM AUTHOR]

Published

2008

8. Mid-Infrared Spectral Properties of IR QSOs.

Author

Xia, X. Y., Cao, C., Mao, S., and Deng, Z. G.

Subjects

INFRARED spectroscopy, QUASARS, LUMINOSITY distance, SUPERNOVAE, METAPHYSICAL cosmology, ASTROPHYSICS

Abstract

We analyse mid-infrared (MIR) spectroscopic properties for 19 ultra-luminous infrared quasars (IR QSOs) in the local universe based on the spectra from the Infrared Spectrograph on board the Spitzer Space Telescope. The MIR properties of IR QSOs are compared with those of optically-selected Palomar-Green QSOs (PG QSOs) and ultra-luminous infrared galaxies (ULIRGs). The average MIR spectral features from ∼5 to 30 μm, including the spectral slopes, 6.2 μm PAH emission strengths and [NeII] 12.81 μm luminosities of IR QSOs, differ from those of PG QSOs. In contrast, IR QSOs and ULIRGs have comparable PAH and [NeII] luminosities. These results are consistent with IR QSOs being at a transitional stage from ULIRGs to classical QSOs. We also find the correlation between the EW (PAH 6.2 μm) and outflow velocities suggests that star formation activities are suppressed by feedback from AGNs and/or supernovae. [ABSTRACT FROM AUTHOR]

Published

2008

9. Brightest Cluster Galaxies and Dry Mergers.

Author

Deng, Z. G., Liu, F. S., Xia, X. Y., and Mao, S.

Subjects

*GALAXY clusters, *REDSHIFT, *ELLIPTICAL galaxies, *STELLAR activity, *METAPHYSICAL cosmology

Abstract

Photometric properties of the early type Brightest Cluster Galaxies (BCGs) has been investigated for a sample of 85 BCGs with redshifts less than 0.1 selected from the C4 cluster catalogue. The results are compared to those obtained from a sample of elliptical galaxies chosen with similar apparent magnitude and redshift ranges. We find that BCGs have steeper size-luminosity (R∝Lα) and Faber-Jackson (L∝σβ) relations than the bulk of early type galaxies. The differences in the scaling relations suggest that the dynamical structure and formation route of BCGs may be different from the bulk of early type galaxies, in particular dry (dissipationless) mergers may play a more important role in their formation. [ABSTRACT FROM AUTHOR]

Published

2008

10. The Coeval Growth of Black Holes and Their Host Spheroids.

Author

Xia, X. Y., Hao, C. N., Mao, S., and Deng, Z. G.

Subjects

SUPERMASSIVE black holes, GRAVITATIONAL collapse, ELLIPTICAL galaxies, REDSHIFT, STARBURSTS

Abstract

We investigate the growth of black holes and their spheroids using several high-redshift far-infrared hyper-luminous QSO samples. By applying the same criteria established in an earlier work for local infrared ultra-luminous QSOs (IR QSOs), we find that these objects also have far-infrared excess as IR QSOs. Under the assumption that this excess originates from dust predominantly heated by starbursts, we find that the ratio of the star formation rate to the accretion rate of the central supermassive black hole is about several hundred, consistent with the correlation between the spheroid mass and the black hole mass seen in local galaxies, which demonstrates that the growth of black holes and their host spheroids occur simultaneously at this short transitionary phase. [ABSTRACT FROM AUTHOR]

Published

2008

11. Dual effects of stochastic heating on electron injection in laser wakefield acceleration.

Author

Deng, Z. G., Yang, L., Zhou, C. T., Yu, M. Y., Ying, H. P., and Wang, X. G.

Subjects

*ELECTRONS, *STOCHASTIC analysis, *HEATING, *LASER plasma accelerators, *LASER pulses, *COMPUTER simulation

Abstract

Electron injection into the wakefield of an intense short laser pulse by a weaker laser pulse propagating in the opposite direction is reconsidered using two-dimensional (2D) particle-in-cell simulations as well as analytical modeling. It is found that for linearly polarized lasers the injection efficiency and the quality of the wakefield accelerated electrons increase with the intensity of the injection laser only up to a certain level, and then decreases. Theory and simulation tracking test electrons originally in the beat region of the two laser pulses show that the reduction of the injection efficiency at high injection-laser intensities is caused by stochastic overheating of the affected electrons. [ABSTRACT FROM AUTHOR]

Published

2014