Igor A. Makhotkin scite author profile

In the first part of this article we experimentally show that contrast between the very thin layers of La and B enables close to theoretical reflectance. The reflectivity at 6.8 nm wavelength was measured from La/B multilayer mirrors with period thicknesses ranging from 3.5 to 7.2 nm at the appropriate angle for constructive interference. The difference between the measured reflectance and the reflectance calculated for a perfect multilayer structure decreases with increasing multilayer period. The reflectance of the multilayer with the largest period approaches the theoretical value, showing that the optical contrast between the very thin layers of these structures allows to experimentally access close to theoretical reflectance. In the second part of the article we discuss the structure of La/B and LaN/B multilayers. This set of multilayers is probed by hard X-rays (λ = 0.154 nm) and EUV radiation (λ = 6.8 nm). The structure is reconstructed based on a simultaneous fit of the grazing incidence hard X-ray reflectivity and the EUV reflectivity curves. The reflectivity analysis of the La/B and LaN/B multilayer mirrors shows that the lower reflectance of La/B mirrors compared to LaN/B mirrors can be explained by the presence of 5% of La atoms in the B layer and 63% of B in La layer. After multi-parametrical optimization of the LaN/B system, including the nitridation of La, the highest near normal incidence reflectivity of 57.3% at 6.6 nm wavelength has been measured from a multilayer mirror, containing 175 bi-layers. This is the highest value reported so far.

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Combined EUV reflectance and X-ray reflectivity data analysis of periodic multilayer structures

Yakunin¹,

Makhotkin²,

Nikolaev³

et al. 2014

Opt. Express

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We present a way to analyze the chemical composition of periodical multilayer structures using the simultaneous analysis of grazing incidence hard X-Ray reflectivity (GIXR) and normal incidence extreme ultraviolet reflectance (EUVR). This allows to combine the high sensitivity of GIXR data to layer and interface thicknesses with the sensitivity of EUVR to the layer densities and atomic compositions. This method was applied to the reconstruction of the layered structure of a LaN/B multilayer mirror with 3.5 nm periodicity. We have compared profiles obtained by simultaneous EUVR and GIXR and GIXR-only data analysis, both reconstructed profiles result in a similar description of the layered structure. However, the simultaneous analysis of both EUVR and GIXR by a single algorithm lead to a ∼ 2x increased accuracy of the reconstructed layered model, or a more narrow range of solutions, as compared to the GIXR analysis only. It also explains the inherent difficulty of accurately predicting EUV reflectivity from a GIXR-only analysis.

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Mechanism of single-shot damage of Ru thin films irradiated by femtosecond extreme UV free-electron laser

Milov¹,

Makhotkin²,

Sobierajski³

et al. 2018

Opt. Express

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Ruthenium is a perspective material to be used for XUV mirrors at free-electron laser facilities. Yet, it is still poorly studied in the context of ultrafast laser-matter interaction. In this work, we present single-shot damage studies of thin Ru films irradiated by femtosecond XUV free-electron laser pulses at FLASH. Ex-situ analysis of the damaged spots, performed by different types of microscopy, shows that the weakest detected damage is surface roughening. For higher fluences we observe ablation of Ru. Combined simulations using Monte-Carlo code XCASCADE(3D) and the two-temperature model reveal that the damage mechanism is photomechanical spallation, similar to the case of irradiating the target with optical lasers. The analogy with the optical damage studies enables us to explain the observed damage morphologies.

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Spectral properties of La/B - based multilayer mirrors near the boron K absorption edge

et al. 2012

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The spectral properties of La/B, La/B(4)C, and LaN/B, LaN/B(4)C multilayer mirrors have been investigated in the 6.5-6.9 nm wavelength range based on measured B and B(4)C optical constants. Experimentally it is verified to what extent measured and tabulated optical constants are applicable for simulations of the reflectivity of these short period multilayer mirrors. The measured maximum reflectance at various wavelength values around the boron-K absorption edge is compared to calculated values from model systems. The measured reflectance profiles of La/B and La/B(4)C show a maximum at a slightly larger wavelength than calculations would predict based on the measured B and B(4)C optical constants. This is explained by the influence of a formed boron-lanthanum compound on the wavelength where the multilayer shows maximum reflectance. The maximum reflectance profiles of LaN/B and LaN/B(4)C multilayers can be described accurately by using the same boron atomic scattering factors, indicating boron in the LaN/B(4)C multilayer to be in a similar chemical state as boron in the LaN/B multilayer. It also indicates that nitridation of the La layer in the multilayer prevents the formation of La-B compounds. We show that the optimal wavelength for boron based optics is about 6.65 nm and depends on the B chemical state. Finally, using the measured B optical constants we are able to calculate the spectral response of the multilayers, enabling the prediction of the optimal parameters for the above mentioned multilayers.

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Reconstruction of interfaces of periodic multilayers from X-ray reflectivity using a free-form approach

et al. 2016

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Correspondence email: a.zameshin@utwente.nl Synopsis A custom free-form approach is used for reconstruction of GIXRR from periodic multilayers, simulated and experimental data fits are presented.Abstract Grazing Incidence X-ray Reflectivity (GIXRR) is a widely used analysis method for thin films and multilayer structures. However, conventional so-called model-based approaches of structural reconstruction from GIXRR data are lacking analytical power when dealing with very thin structures (down to the nm scale), because a priori assumptions have to be made about the interface composition and structure. This makes it very difficult to reliably analyse such structures. In this work custom freeform approach is presented which solves this task without the need for a priori assumptions on layer or interface parameters. As a proof of principle, a perfect optical constant profile reconstruction and GIXRR curve matching for the simulated data are demonstrated. The developed approach is used to analyse structures of multilayer LaN/B Bragg reflectors designed for the Extreme UV range. Performed analysis allowed to reveal the difference in optical constant profiles of these structures produced with different processes. The uncertainties of structural reconstruction are also discussed.

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Igor A. Makhotkin

Short period La/B and LaN/B multilayer mirrors for ~68 nm wavelength

Combined EUV reflectance and X-ray reflectivity data analysis of periodic multilayer structures

Mechanism of single-shot damage of Ru thin films irradiated by femtosecond extreme UV free-electron laser

Spectral properties of La/B - based multilayer mirrors near the boron K absorption edge

Reconstruction of interfaces of periodic multilayers from X-ray reflectivity using a free-form approach

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