Linpeng Yu scite author profile

By combining cross-polarized wave generation and femtosecond optical parametric amplification, a high-contrast front end featuring ultrahigh contrast, a broadband spectrum, an excellent beam profile, and good stability is built for a 10-PW-level Ti:sapphire laser in the Shanghai Superintense Ultrafast Laser Facility (SULF-10PW laser). The front end can deliver a cleaned pulse with a 110 μJ energy at 1 kHz, and the bandwidth of the cleaned pulse exceeds 60 nm (FWHM), which can support a 17 fs compressed pulse duration. The measured output energy fluctuation in one hour is <1.8% in rms value. The measurement-limited contrast is 10 at 3 ps before the main pulse. Utilizing the high-contrast front end, single-shot contrast at 10 level has been demonstrated in the SULF-10PW laser at a 24 fs pulse duration.

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Dense blocks of energetic ions driven by multi-petawatt lasers

Weng

Liu

Sheng

et al. 2016

Sci Rep

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Laser-driven ion accelerators have the advantages of compact size, high density, and short bunch duration over conventional accelerators. Nevertheless, it is still challenging to simultaneously enhance the yield and quality of laser-driven ion beams for practical applications. Here we propose a scheme to address this challenge via the use of emerging multi-petawatt lasers and a density-modulated target. The density-modulated target permits its ions to be uniformly accelerated as a dense block by laser radiation pressure. In addition, the beam quality of the accelerated ions is remarkably improved by embedding the target in a thick enough substrate, which suppresses hot electron refluxing and thus alleviates plasma heating. Particle-in-cell simulations demonstrate that almost all ions in a solid-density plasma of a few microns can be uniformly accelerated to about 25% of the speed of light by a laser pulse at an intensity around 1022 W/cm2. The resulting dense block of energetic ions may drive fusion ignition and more generally create matter with unprecedented high energy density.

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The Shanghai Superintense Ultrafast Laser Facility (SULF) Project

Gan

Wang

et al. 2021

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A compact tunable polarized X-ray source based on laser-plasma helical undulators

Luo

Chen

Zeng

et al. 2016

Sci Rep

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Laser wakefield accelerators have great potential as the basis for next generation compact radiation sources because of their extremely high accelerating gradients. However, X-ray radiation from such devices still lacks tunability, especially of the intensity and polarization distributions. Here we propose a tunable polarized radiation source based on a helical plasma undulator in a plasma channel guided wakefield accelerator. When a laser pulse is initially incident with a skew angle relative to the channel axis, the laser and accelerated electrons experience collective spiral motions, which leads to elliptically polarized synchrotron-like radiation with flexible tunability on radiation intensity, spectra and polarization. We demonstrate that a radiation source with millimeter size and peak brilliance of 2 × 1019 photons/s/mm2/mrad2/0.1% bandwidth can be made with moderate laser and electron beam parameters. This brilliance is comparable with third generation synchrotron radiation facilities running at similar photon energies, suggesting that laser plasma based radiation sources are promising for advanced applications.

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Control of focusing fields for positron acceleration in nonlinear plasma wakes using multiple laser modes

Schroeder

et al. 2014

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Control of transverse wakefields in the nonlinear laser-driven bubble regime using a combination of Hermite-Gaussian laser modes is proposed. By controlling the relative intensity ratio of the two laser modes, the focusing force can be controlled, enabling matched beam propagation for emittance preservation. A ring bubble can be generated with a large longitudinal accelerating field and a transverse focusing field suitable for positron beam focusing and acceleration.

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Suppression of thermal lens effect in high-pulse-energy Ti:sapphire amplifiers

et al. 2017

Optics & Laser Technology

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Radially polarized, half-cycle, attosecond pulses from laser wakefields through coherent synchrotronlike radiation

Sheng

Chen

et al. 2014

Phys. Rev. E

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Attosecond bursts of coherent synchrotronlike radiation are found when driving ultrathin relativistic electron disks in a quasi-one-dimensional regime of wakefield acceleration, in which the laser waist is larger than the wake wavelength. The disks of overcritical density shrink radially due to focusing wakefields, thus providing the transverse currents for the emission of an intense, radially polarized, half-cycle pulse of about 100 attoseconds in duration. The electromagnetic pulse first focuses to a peak intensity (7×10(20)W/cm(2)) 10 times larger than the driving pulse and then emerges as a conical beam. Basic dynamics of the radiative process are derived analytically and in agreement with particle-in-cell simulations. By making use of gas targets instead of solids to form the ultrathin disks, this method allows for high repetition rates required for applications.

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Linpeng Yu

Horizon 2020 EuPRAXIA design study

High-contrast front end based on cascaded XPWG and femtosecond OPA for 10-PW-level Ti:sapphire laser

Dense blocks of energetic ions driven by multi-petawatt lasers

The Shanghai Superintense Ultrafast Laser Facility (SULF) Project

A compact tunable polarized X-ray source based on laser-plasma helical undulators

Control of focusing fields for positron acceleration in nonlinear plasma wakes using multiple laser modes

Suppression of thermal lens effect in high-pulse-energy Ti:sapphire amplifiers

Radially polarized, half-cycle, attosecond pulses from laser wakefields through coherent synchrotronlike radiation

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