Your search keyword '"Dobrowolski, Artur"' showing total 3 results

1. PRISM: three-dimensional sub-diffractive phase-resolved imaging spectroscopic method.

Author

Dobrowolski A, Jagiełło J, Pyrzanowska B, Piętak-Jurczak K, Możdżyńska EB, and Ciuk T

Abstract

We demonstrate a genuine method for three-dimensional pictorial reconstructions of two-dimensional, three-dimensional, and hybrid specimens based on confocal Raman data collected in a back-scattering geometry of a 532-nm setup. The protocol, or the titular PRISM (Phase-Resolved Imaging Spectroscopic Method), allows for sub-diffractive and material-resolved imaging of the object's constituent material phases. The spacial component comes through either the signal distal attenuation ratio (direct mode) or subtle light-matter interactions, including interference enhancement and light absorption (indirect mode). The phase component is brought about by scrutinizing only selected Raman-active modes. We illustrate the PRISM approach in common real-life examples, including photolithographically structured amorphous Al 2 O 3 , reactive-ion-etched homoepitaxial SiC, and Chemical Vapor Deposition graphene transferred from copper foil onto a Si substrate and AlGaN microcolumns. The method is implementable in widespread Raman apparatus and offers a leap in the quality of materials imaging. The lateral resolution of PRISM is stage-limited by step motors to 100 nm. At the same time, the vertical accuracy is estimated at a nanometer scale due to the sensitivity of one of the applied phenomena (interference enhancement) to the physical property of the material (layer thickness)., (© 2024. The Author(s).)

Published

2024

2. Author Correction: Effect of biostimulants on the growth, yield and nutritional value of Capsicum annuum grown in an unheated plastic tunnel.

Author

Majkowska-Gadomska J, Dobrowolski A, Jadwisieńczak KK, Kaliniewicz Z, and Francke A

Published

2021

3. Effect of biostimulants on the growth, yield and nutritional value of Capsicum annuum grown in an unheated plastic tunnel.

Author

Majkowska-Gadomska J, Dobrowolski A, Jadwisieńczak KK, Kaliniewicz Z, and Francke A

Subjects

Capsicum growth & development, Fruit growth & development, Nutritive Value, Plastics

Abstract

Recent years have witnessed an increased interest in the cultivation and consumption of peppers. Therefore, new solutions are being sought to provide pepper plants with the most favorable conditions for growth and development. In view of the above, the aim of this study was to evaluate the effect of selected biostimulants on the biometric parameters, yield and nutritional value of Capsicum annuum fruit. The research hypothesis postulates that biostimulants can increase the yield and improve the nutritional quality of pepper fruit. The experiment was conducted in an unheated plastic tunnel. The experimental materials comprised three sweet ('Solario F 1 ', 'Turbine F 1 ' and 'Whitney F 1 ') and two hot ('Cyklon' and 'Palivec') cultivars of C. annuum. It was found that the combined application of environmentally-friendly microbial-based biostimulants (BB Soil, BB Foliar, Multical, MK5 and Biocin F) did not clearly improve the morphological traits of pepper fruit, yield or the concentrations of sugars and organic acids in fruit, therefore their use is not economically justified. Hot peppers had a higher content of dry matter, total sugars and L-ascorbic acid than sweet peppers. The analyzed biostimulants increased nitrate (V) concentrations in the fruit of both hot and sweet peppers. 'Turbine F 1 ' and 'Solario F 1 ' were particularly prone to nitrate (V) accumulation in fruit, therefore the use of biostimulants should be limited in their cultivation. Pepper fruits with the largest horizontal diameter and the thickest skin should be preferred because these traits are associated with high sugar content., (© 2021. The Author(s).)

Published

2021