Broadband Time-Delay and Chirp Compensator for X-ray Pulses

Broadband Time-Delay and Chirp Compensator for X-ray Pulses

A new type of aberration-corrected time-delay compensating monochromator (TDCM) for soft X-rays is presented. Composed of two identical reflection zone plates (RZPs) on spherical substrates and an intermediate flat mirror for band-pass selection, the TDCM can operate in a wide energy range of about...

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Veröffentlicht in:Photonics 2022-05, Vol.9 (5), p.302
Hauptverfasser: Braig, Christoph, Erko, Alexei
Format: Artikel
Sprache:eng
Schlagworte:
Bandwidths
Broadband
Compensators
Compression
Design
Energy
femtosecond pulses
Pulse compression
Pulse duration
reflection zone plates
Resolution
Soft x rays
Substrates
Transmission efficiency
X-ray lasers
XUV/soft X-ray spectroscopy
Zone plates
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Zusammenfassung:A new type of aberration-corrected time-delay compensating monochromator (TDCM) for soft X-rays is presented. Composed of two identical reflection zone plates (RZPs) on spherical substrates and an intermediate flat mirror for band-pass selection, the TDCM can operate in a wide energy range of about ±20% around the design energy of 410eV. Assuming a source size of 50μm and an angular acceptance of 1 mrad, the spectral resolving power may reach 6×102, at a pulse length as short as 4.3femtoseconds(fs). In the case of μm-sized sources, the resolution can be better than 0.1eV and the sub-fs regime could become accessible. The overall transmission efficiency varies within (4.2–6.0)% across the energy range (310–510) eV. In the complementary mode, chirped-pulse compression works as well. Depending on the properties of the source, simulations predict an up to 9-fold reduction in pulse duration, whereas ≤50% of the peak intensity is maintained.
ISSN:2304-6732
2304-6732
DOI:10.3390/photonics9050302