Mary Matthews scite author profile

A synchrotron radiation beamline in the photon energy range of 18 -240 eV and an electron spectroscopy end station have been constructed at the 3 GeV Diamond Light Source storage ring. The instrument features a variable polarisation undulator, a high resolution monochromator, a re-focussing system to form a beam spot of 50x50 µm 2 and an end station for angle-resolved photoelectron spectroscopy (ARPES) including a 6-degrees-of-freedom cryogenic sample manipulator. The beamline design and its performance allow for a highly productive and precise use of the ARPES technique at an energy resolution of 10 -15 meV for fast k-space mapping studies with a photon flux up to 2 • 10 13 ph/sec and well below 3 meV for high resolution spectra.

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Time-resolved X-ray absorption spectroscopy with a water-window high-harmonic source

Pertot

Schmidt

Matthews

et al. 2017

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Amplification of intense light fields by nearly free electrons

et al. 2018

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Light can be used to modify and control properties of media, as in the case of electromagnetically induced transparency or, more recently, for the generation of slow light or bright coherent XUV and X-ray radiation. Particularly unusual states of matter can be created by light fields with strengths comparable to the Coulomb field that binds valence electrons in atoms, leading to nearly-free electrons oscillating in the laser field and yet still loosely bound to the core [1,2]. These are known as Kramers-Henneberger states [3], a specific example of laser-dressed states [2]. Here, we demonstrate that these states arise not only in isolated atoms [4,5], but also in rare gases, at and above atmospheric pressure, where they can act as a gain medium during laser filamentation. Using shaped laser pulses, gain in these states is achieved within just a few cycles of the guided field. The corresponding lasing emission is a signature of population inversion in these states and of their stability against ionization. Our work demonstrates that these unusual states of neutral atoms can be exploited to create a general ultrafast gain mechanism during laser filamentation.

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Mary Matthews

Time-resolved x-ray absorption spectroscopy with a water window high-harmonic source

A facility for the analysis of the electronic structures of solids and their surfaces by synchrotron radiation photoelectron spectroscopy

Time-resolved X-ray absorption spectroscopy with a water-window high-harmonic source

Amplification of intense light fields by nearly free electrons

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