Eva Klimešová scite author profile

On the method of photoluminescence spectral intensity ratio imaging of silicon bricks: Advances and limitations J. Appl. Phys. 112, 063116 (2012) Measurement of net dopant concentration via dynamic photoluminescence J. Appl. Phys. 112, 063704 (2012) Luminescence and deep-level transient spectroscopy of grown dislocation-rich Si layers AIP Advances 2, 032152 (2012) The role of excess minority carriers in light induced degradation examined by photoluminescence imaging J. Appl. Phys. 112, 033703 (2012) Effect of hydrofluoric acid concentration on the evolution of photoluminescence characteristics in porous silicon nanowires prepared by Ag-assisted electroless etching method

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Tuning luminescence properties of silicon nanocrystals by lithium doping

Klimešová

Kůsová

Vacı́k

et al. 2012

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Doping silicon nanocrystals (SiNCs) provides a new way to modify their luminescence properties and tailor them for a particular application. We prepared Li-doped SiNCs and characterized them by neutron depth profiling and x-ray diffraction. Our SiNC samples are doped with around 10–100 Li atoms per one nanocrystal and their lattice slightly expands after lithium insertion. We show that the photoluminescence (PL) properties of Li-doped SiNCs are distinctly modified compared to the undoped case. The PL maximum shifts to shorter wavelengths and the PL decay time decreases, both these features being favorable for applications in photonics. The spectral blue-shift is attributed to the tensile strain in SiNCs induced by doping with lithium.

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A multipurpose end-station for atomic, molecular and optical sciences and coherent diffractive imaging at ELI beamlines

Klimešová

Kulyk

Hoque

et al. 2021

Eur. Phys. J. Spec. Top.

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We report on the status of a users’ end-station, MAC: a Multipurpose station for Atomic, molecular and optical sciences and Coherent diffractive imaging, designed for studies of structure and dynamics of matter in the femtosecond time-domain. MAC is located in the E1 experimental hall on the high harmonic generation (HHG) beamline of the ELI Beamlines facility. The extreme ultraviolet beam from the HHG beamline can be used at the MAC end-station together with a synchronized pump beam (which will cover the NIR/Vis/UV or THz range) for time-resolved experiments on different samples. Sample delivery systems at the MAC end-station include a molecular beam, a source for pure or doped clusters, ultrathin cylindrical or flat liquid jets, and focused beams of substrate-free nanoparticles produced by an electrospray or a gas dynamic virtual nozzle combined with an aerodynamic lens stack. We further present the available detectors: electron/ion time-of-flight and velocity map imaging spectrometers and an X-ray camera, and discuss future upgrades: a magnetic bottle electron spectrometer, production of doped nanodroplets and the planned developments of beam capabilities at the MAC end-station.

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Eva Klimešová

Luminescence of free-standing versus matrix-embedded oxide-passivated silicon nanocrystals: The role of matrix-induced strain

Tuning luminescence properties of silicon nanocrystals by lithium doping

A multipurpose end-station for atomic, molecular and optical sciences and coherent diffractive imaging at ELI beamlines

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