Your search keyword '"Huang, Zhirong"' showing total 11 results

1. Experimental demonstration of attosecond pump–probe spectroscopy with an X-ray free-electron laser

Author

Guo, Zhaoheng, Driver, Taran, Beauvarlet, Sandra, Cesar, David, Duris, Joseph, Franz, Paris L., Alexander, Oliver, Bohler, Dorian, Bostedt, Christoph, Averbukh, Vitali, Cheng, Xinxin, DiMauro, Louis F., Doumy, Gilles, Forbes, Ruaridh, Gessner, Oliver, Glownia, James M., Isele, Erik, Kamalov, Andrei, Larsen, Kirk A., Li, Siqi, Li, Xiang, Lin, Ming-Fu, McCracken, Gregory A., Obaid, Razib, O’Neal, Jordan T., Robles, River R., Rolles, Daniel, Ruberti, Marco, Rudenko, Artem, Slaughter, Daniel S., Sudar, Nicholas S., Thierstein, Emily, Tuthill, Daniel, Ueda, Kiyoshi, Wang, Enliang, Wang, Anna L., Wang, Jun, Weber, Thorsten, Wolf, Thomas J. A., Young, Linda, Zhang, Zhen, Bucksbaum, Philip H., Marangos, Jon P., Kling, Matthias F., Huang, Zhirong, Walter, Peter, Inhester, Ludger, Berrah, Nora, Cryan, James P., and Marinelli, Agostino

Abstract

Pump–probe experiments with subfemtosecond resolution are the key to understanding electronic dynamics in quantum systems. Here we demonstrate the generation and control of subfemtosecond pulse pairs from a two-colour X-ray free-electron laser. By measuring the delay between the two pulses with an angular streaking diagnostic, we characterize the group velocity of the X-ray free-electron laser and show control of the pulse delay down to 270 as. We confirm the application of this technique to a pump–probe measurement in core-ionized para-aminophenol. These results reveal the ability to perform pump–probe experiments with subfemtosecond resolution and atomic site specificity.

Published

2024

2. Terawatt-scale attosecond X-ray pulses from a cascaded superradiant free-electron laser

Author

Franz, Paris, Li, Siqi, Driver, Taran, Robles, River R., Cesar, David, Isele, Erik, Guo, Zhaoheng, Wang, Jun, Duris, Joseph P., Larsen, Kirk, Glownia, James M., Cheng, Xinxin, Hoffmann, Matthias C., Li, Xiang, Lin, Ming-Fu, Kamalov, Andrei, Obaid, Razib, Summers, Adam, Sudar, Nick, Thierstein, Emily, Zhang, Zhen, Kling, Matthias F., Huang, Zhirong, Cryan, James P., and Marinelli, Agostino

Abstract

Intense attosecond X-ray pulses are key for ultrafast nonlinear spectroscopy and diffractive imaging. Here we demonstrate the generation of terawatt-scale isolated attosecond pulses with a two-stage cascaded X-ray free-electron laser. These pulses have a median energy in excess of 100 μJ in the soft X-ray region. The temporal profile is characterized with an angular streaking measurement, revealing a maximum peak power of 1.1 TW. Our data show an increase in the average peak power of attosecond X-ray pulses by one order of magnitude over previous reported results and provide strong evidence of soliton-like superradiant behaviour in the X-ray regime.

Published

2024

3. Low-loss stable storage of 1.2 Å X-ray pulses in a 14 m Bragg cavity

Author

Margraf, Rachel, Robles, River, Halavanau, Alex, Kryzywinski, Jacek, Li, Kenan, MacArthur, James, Osaka, Taito, Sakdinawat, Anne, Sato, Takahiro, Sun, Yanwen, Tamasaku, Kenji, Huang, Zhirong, Marcus, Gabriel, and Zhu, Diling

Abstract

We present an experimental demonstration of a stable, low-loss, large X-ray cavity operating at 1.2 Å wavelength. The cavity consists of four separate high-reflectivity single crystal diamond Bragg mirrors arranged in a rectangular configuration with a round-trip distance of 14.2 m. Femtosecond X-ray pulses from an X-ray free-electron laser were coupled into the cavity via a transmission phase grating. We show that a stable mode can be maintained with the introduction of cavity focusing and measure round-trip efficiencies approaching 88%, or >96% when excluding grating and lens losses, close to the Bragg mirror theoretical performance limit. The direct observation of sustained stable X-ray circulation provides the most direct evidence to date that cavity-based X-ray free-electron lasers and other cavity-based hard X-ray systems are feasible.

Published

2023

4. Effects of different annealing cooling methods on the microstructure and properties of TA10 titanium alloys

Author

Huang, Zhirong, Xiao, Han, Yu, Jiaxin, Zhang, Hongyu, Huang, Haiguang, Yu, Kun, and Zhou, Rongfeng

Abstract

The microstructure, mechanical properties, and corrosion resistance of TA10 titanium alloy annealed via different cooling methods were investigated. After annealing, the intergranular β phase decreases, and most of the strip α phase changes to the equiaxed α phase. The grain size of the equiaxed α phase is the largest, and the content of the primary α phase is the lowest at the longest annealing cooling time. The TA10 titanium alloy sheet with furnace cooling shows better plasticity than that with air cooling. The tensile strength and Vickers hardness gradually decrease with increasing furnace cooling time, and the elongation increases Different annealing cooling methods result in the same corrosion behavior, but the corrosion resistance is different. The sample with the longest cooling time has the highest corrosion resistance. Prolonging the cooling time after annealing is helpful to improve the corrosion resistance of titanium alloy.

Published

2022

5. Tunable isolated attosecond X-ray pulses with gigawatt peak power from a free-electron laser

Author

Duris, Joseph, Li, Siqi, Driver, Taran, Champenois, Elio G., MacArthur, James P., Lutman, Alberto A., Zhang, Zhen, Rosenberger, Philipp, Aldrich, Jeff W., Coffee, Ryan, Coslovich, Giacomo, Decker, Franz-Josef, Glownia, James M., Hartmann, Gregor, Helml, Wolfram, Kamalov, Andrei, Knurr, Jonas, Krzywinski, Jacek, Lin, Ming-Fu, Marangos, Jon P., Nantel, Megan, Natan, Adi, O’Neal, Jordan T., Shivaram, Niranjan, Walter, Peter, Wang, Anna Li, Welch, James J., Wolf, Thomas J. A., Xu, Joseph Z., Kling, Matthias F., Bucksbaum, Philip H., Zholents, Alexander, Huang, Zhirong, Cryan, James P., and Marinelli, Agostino

Abstract

The quantum-mechanical motion of electrons in molecules and solids occurs on the sub-femtosecond timescale. Consequently, the study of ultrafast electronic phenomena requires the generation of laser pulses shorter than 1 fs and of sufficient intensity to interact with their target with high probability. Probing these dynamics with atomic-site specificity requires the extension of sub-femtosecond pulses to the soft X-ray spectral region. Here, we report the generation of isolated soft X-ray attosecond pulses with an X-ray free-electron laser. Our source has a pulse energy that is millions of times larger than any other source of isolated attosecond pulses in the soft X-ray spectral region, with a peak power exceeding 100 GW. This unique combination of high intensity, high photon energy and short pulse duration enables the investigation of electron dynamics with X-ray nonlinear spectroscopy and single-particle imaging, unlocking a path towards a new era of attosecond science.

Published

2020

6. Statistical characterization of an x-ray FEL in the spectral domain

Author

Tschentscher, Thomas, Patthey, Luc, Lutman, Alberto, Huang, Zhirong, Krzywinski, Jacek, Wu, Juhao, Zhu, Diling, and Feng, Yiping

Published

2017

7. Fresh-slice multicolour X-ray free-electron lasers

Author

Lutman, Alberto A., Maxwell, Timothy J., MacArthur, James P., Guetg, Marc W., Berrah, Nora, Coffee, Ryan N., Ding, Yuantao, Huang, Zhirong, Marinelli, Agostino, Moeller, Stefan, and Zemella, Johann C. U.

Abstract

X-ray free-electron lasers (XFELs) provide femtosecond X-ray pulses with a narrow energy bandwidth and unprecedented brightness. Ultrafast physical and chemical dynamics, initiated with a site-specific X-ray pulse, can be explored using XFELs with a second ultrashort X-ray probe pulse. However, existing double-pulse schemes are complicated, difficult to customize or provide only low-intensity pulses. Here we present the novel fresh-slice technique for multicolour pulse production, wherein different temporal slices of an electron bunch lase to saturation in separate undulator sections. This method combines electron bunch tailoring from a passive wakefield device with trajectory control to provide multicolour pulses. The fresh-slice scheme outperforms existing techniques at soft X-ray wavelengths. It produces femtosecond pulses with a power of tens of gigawatts and flexible colour separation. The pulse delay can be varied from temporal overlap to almost one picosecond. We also demonstrate the first three-colour XFEL and variably polarized two-colour pulses.

Published

2016

8. Polarization control in an X-ray free-electron laser

Author

Lutman, Alberto A., MacArthur, James P., Ilchen, Markus, Lindahl, Anton O., Buck, Jens, Coffee, Ryan N., Dakovski, Georgi L., Dammann, Lars, Ding, Yuantao, Dürr, Hermann A., Glaser, Leif, Grünert, Jan, Hartmann, Gregor, Hartmann, Nick, Higley, Daniel, Hirsch, Konstantin, Levashov, Yurii I., Marinelli, Agostino, Maxwell, Tim, Mitra, Ankush, Moeller, Stefan, Osipov, Timur, Peters, Franz, Planas, Marc, Shevchuk, Ivan, Schlotter, William F., Scholz, Frank, Seltmann, Jörn, Viefhaus, Jens, Walter, Peter, Wolf, Zachary R., Huang, Zhirong, and Nuhn, Heinz-Dieter

Abstract

X-ray free-electron lasers are unique sources of high-brightness coherent radiation. However, existing devices supply only linearly polarized light, precluding studies of chiral dynamics. A device called the Delta undulator has been installed at the Linac Coherent Light Source (LCLS) to provide tunable polarization. With a reverse tapered planar undulator line to pre-microbunch the beam and the novel technique of beam diverting, hundreds of microjoules of circularly polarized X-ray pulses are produced at 500–1,200 eV. These X-ray pulses are tens of femtoseconds long, have a degree of circular polarization of 0.98–0.04+0.02at 707 eV and may be scanned in energy. We also present a new two-colour X-ray pump–X-ray probe operating mode for the LCLS. Energy differences of ΔE/E = 2.4% are supported, and the second pulse can be adjusted to any elliptical polarization. In this mode, the pointing, timing, intensity and wavelength of the two pulses can be modified.

Published

2016

9. Femtosecond-scale x-ray FEL diagnostics with the LCLS X-band transverse deflector

Author

Hau-Riege, Stefan P., Moeller, Stefan P., Yabashi, Makina, Maxwell, Timothy J., Behrens, Christopher, Ding, Yuantao, Huang, Zhirong, Krejcik, Patrick, Marinelli, Agostino, Piccoli, Luciano, and Ratner, Daniel

Published

2014

10. The optical design of the soft x-ray self-seeding at LCLS

Author

Klisnick, Annie, Menoni, Carmen S., Cocco, Daniele, Abela, Rafael, Amann, John W., Chow, Ken, Emma, Paul J., Feng, Yiping, Gassner, Georg L., Hastings, Jerome, Heimann, Philip, Huang, Zhirong, Loos, Henrik, Montanez, Paul A., Morton, Daniel, Nuhn, Heinz-Dieter, Ratner, Daniel F., Rodes, Larry N., Flechsig, Uwe, Welch, James J., and Wu, Juhao

Published

2013

11. Optimization of low-voltage electron optics

Author

Hordon, Laurence S., Huang, Zhirong, Browning, Raymond, Maluf, Nadim I., and Pease, Roger Fabian W.

Published

1993