论文信息 - Photon diagnostics at the FLASH THz beamline - 字舞流文

Photon diagnostics at the FLASH THz beamline

A range of THz diagnostic tools developed for THz/XUV pump–probe experiments at FLASH1, DESY, are presented.

Gianluca Geloni | Franz Tavella | Mikhail Yurkov | Bertram Green | Evgeny Schneidmiller | Bart Faatz | Aleksandar J. Krmpot | Torsten Golz | Andrea Perucchi | Takanori Tanikawa | Jovana Petrovic | Nikola Stojanovic | B. Faatz | E. Schneidmiller | M. Yurkov | N. Stojanovic | J. Petrovic | G. Geloni | S. Kovalev | B. Green | M. Gensch | M. Rabasović | A. Perucchi | Michael Gensch | F. Tavella | E. Zapolnova | R. Pan | T. Golz | Rui Pan | Ekaterina Zapolnova | Mihailo D. Rabasovic | Vivek Asgekar | Sergey Kovalev | T. Tanikawa | A. Krmpot | V. Asgekar | N. Stojanović

[1] K. Nelson,et al. Invited Article: Single-shot THz detection techniques optimized for multidimensional THz spectroscopy. , 2015, The Review of scientific instruments.

[2] Alfred Leitenstorfer,et al. Ultrabroadband terahertz pulses: generation and field-resolved detection , 2005 .

[3] M. Justus,et al. High-Field High-Repetition-Rate Sources for the Coherent THz Control of Matter , 2016, Scientific Reports.

[4] Wei Li,et al. Time-resolved pump-probe experiments beyond the jitter limitations at FLASH , 2009 .

[5] Elke Plönjes,et al. Single-shot terahertz-field-driven X-ray streak camera , 2009 .

[6] N. Stojanovic,et al. Correlated electronic decay in expanding clusters triggered by intense XUV pulses from a Free-Electron-Laser , 2017, Scientific Reports.

[7] S. Eisebitt,et al. Terahertz magnetic field enhancement in an asymmetric spiral metamaterial , 2018, Journal of Physics B: Atomic, Molecular and Optical Physics.

[8] X. Zhang,et al. Free‐space electro‐optic sampling of terahertz beams , 1995 .

[9] F. Trost,et al. Terahertz-Field-Induced Time Shifts in Atomic Photoemission. , 2019, Physical review letters.

[10] Stephan Lüttjohann,et al. Lamellar grating optimization for miniaturized fourier transform spectrometers. , 2009, Optics express.

[11] V. Kocharyan,et al. Theory of edge radiation. Part II: Advanced applications , 2009 .

[12] David S. Saxon,et al. Suppression of Coherent Radiation by Electrons in a Synchrotron , 1954 .

[13] Henning Weddig,et al. Simultaneous operation of two soft x-ray free-electron lasers driven by one linear accelerator , 2016, New Journal of Physics.

[14] B. Faatz,et al. Photon diagnostics at the FLASH THz beamline , 2019 .

[15] C. Schmidt,et al. Femtosecond all-optical synchronization of an X-ray free-electron laser , 2015, Nature Communications.

[16] Chem. , 2020, Catalysis from A to Z.

[17] Franz Tavella,et al. The FLASH pump–probe laser system: Setup, characterization and optical beamlines , 2011 .

[18] S. Toleikis,et al. Attosecond interferometry with self-amplified spontaneous emission of a free-electron laser , 2017, Nature Communications.

[19] K. Nelson,et al. Resonant and nonresonant control over matter and light by intense terahertz transients , 2013, Nature Photonics.

[20] Zhiping Jiang,et al. Electro-optic measurement of THz field pulses with a chirped optical beam , 1998 .

[21] Gianluca Geloni,et al. Few-femtosecond timing at fourth-generation X-ray light sources , 2011 .

[22] John Strong,et al. Lamellar Grating Far-Infrared Interferomer , 1960 .

[23] P. L. Richards,et al. High-Resolution Fourier Transform Spectroscopy in the Far-Infrared , 1964 .

[24] T. Kampfrath,et al. Probing ultra-fast processes with high dynamic range at 4th-generation light sources: Arrival time and intensity binning at unprecedented repetition rates , 2017, Structural dynamics.

[25] M. Yurkov,et al. Magnetic measurements with the FLASH infrared undulator , 2010 .

[26] V. Kocharyan,et al. Theory of edge radiation. Part I: Foundations and basic applications , 2009 .

[27] V. Kocharyan,et al. Interference effects in super-radiant THz sources , 2014 .

[28] N. Stojanovic,et al. Accelerator- and laser-based sources of high-field terahertz pulses , 2013 .

[29] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.

[30] Charles A Schmuttenmaer,et al. Exploring dynamics in the far-infrared with terahertz spectroscopy. , 2004, Chemical reviews.

[31] L. Hadzievski,et al. Terahertz chiral metamaterial based on twisted closed ring resonators , 2018 .

[32] J. V. van Bokhoven,et al. Polarization-sensitive pulse reconstruction by momentum-resolved photoelectron streaking. , 2018, Optics express.

[33] H. Wabnitz,et al. The soft x-ray free-electron laser FLASH at DESY: beamlines, diagnostics and end-stations , 2009 .

[34] E. Plönjes,et al. Evidence for chirped Auger-electron emission. , 2012, Physical review letters.

[35] S. Schreiber,et al. THz pulse doubler at FLASH: double pulses for pump–probe experiments at X-ray FELs , 2018, Journal of synchrotron radiation.

[36] J. Feldhaus,et al. New infrared undulator beamline at FLASH , 2008 .

[37] Andrea Alù,et al. Metamaterial, plasmonic and nanophotonic devices , 2017, Reports on progress in physics. Physical Society.

[38] Michelson-type all-reflective interferometric autocorrelation in the VUV regime , 2014 .

[39] M. Naftaly,et al. Silicon carbide--a high-transparency nonlinear material for THz applications. , 2016, Optics express.

[40] A. Cavalleri,et al. Probing dynamics in quantum materials with femtosecond X-rays , 2018, Nature Reviews Materials.

[41] Willie J Padilla,et al. Terahertz Magnetic Response from Artificial Materials , 2004, Science.

[42] M. Naftaly,et al. A Simple Interferometer for the Analysis of Terahertz Sources and Detectors , 2008, IEEE Journal of Selected Topics in Quantum Electronics.