Adam Czerwiński scite author profile

Adam Czerwiński

5Publications

65Citation Statements Received

21Citation Statements Given

How they've been cited

100

How they cite others

Affiliations

Hamilton Medical Center, Warsaw University of Technology, Opole University

Publications

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Diffractive paper lens for terahertz optics

et al. 2012

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Passive terahertz (THz) setups require optical elements with large diameters for optimal harvesting of weak signals. High f-number implies sophisticated aspheric designs to ensure optimal resolution and good energetic efficiency. Trial and error testing of such optics is expensive and numerical modeling is time consuming; hence, we propose extremely cheap diffractive lenses for THz made of regular paper. They are easy to manufacture even with large diameters, and the optical function can be easily customized, which can be used for initial experimental testing of THz setups. Characterization of the proposed diffractive lenses with time-domain spectroscopy is presented and discussed.

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High order kinoforms as a broadband achromatic diffractive optics for terahertz beams

Suszek¹,

Siemion²,

Blocki³

et al. 2014

Opt. Express

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Detection of the THz waves from the 5m distance

Walczakowski

Pałka

Szustakowski

et al. 2013

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Transmission electron microscopy study of erbium silicide formation from Ti/Er stack for Schottky contact applications

Ratajczak

Łaszcz

Czerwiński

et al. 2010

Journal of Microscopy

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Summary In this paper, we present results of transmission electron microscopy studies on erbium silicide structures fabricated under various thermal conditions. A titanium cap has been used as a protective layer against oxidation during rapid thermal annealing of an erbium layer in a temperature range of 300–700°C. Both layers (200 nm Ti and 25 nm Er) were deposited by electron‐beam sputtering. The investigations have shown that the transformation of the 25‐nm‐thick erbium into erbium silicide is completed after annealing at 500°C. At higher temperatures, the formation of a titanium silicide layer above erbium silicide is observed. The lowest Schottky barrier has been measured in the sample annealed at 700°C.

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Room temperature, single mode emission from two-section coupled cavity InGaAs/AlGaAs/GaAs quantum cascade laser

Pierściński

Pierścińska

Płuska

et al. 2015

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Room temperature, single mode, pulsed emission from two-section coupled cavity InGaAs/AlGaAs/GaAs quantum cascade laser fabricated by focused ion beam processing is demonstrated and analyzed. The single mode emission is centered at 1059.4 cm−1 (9.44 μm). A side mode suppression ratio of 43 dB was achieved. The laser exhibits a peak output power of 15 mW per facet at room temperature. The stable, single mode emission is observed within temperature tuning range, exhibiting shift at rate of 0.59 nm/K.

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