Zobrazeno 1 - 10
of 211
pro vyhledávání: '"Andrzej W. Domanski"'
Publikováno v:
Acta physica Polonica: A. 122(5)
Sophisticated techniques employed in radiotherapy for irradiation of tumours require comprehensive dosimetry allowing for precise, high resolution measurements of radiation dose distribution in three dimensions and verification of treatment planning
Autor:
Andrzej W. Domanski, Karolina Milenko, Agata Siarkowska, M. Tefelska, R. Laczkowski, Slawomir Ertman, Tomasz R. Wolinski
Publikováno v:
Journal of Lightwave Technology. 33:2405-2411
The paper describes four different types of micro-electrodes systems for dynamic electric field sensing with photonic crystal fibers infiltrated with liquid crystals. The shortest switching time ∼20 ms was achieved by using a flexible-flat-cable el
Autor:
Andrzej W. Domanski, O. Chojnowska, Kamil Orzechowski, M. Tefelska, Roman Dąbrowski, Katarzyna A. Rutkowska, Slawomir Ertman, Tomasz R. Wolinski, Marek Wojciech Sierakowski, Karolina Milenko
Publikováno v:
Molecular Crystals and Liquid Crystals. 594:55-62
Experimental results of polymer photonic liquid crystal fibers based on commercially available (Kiriama) PMMA and cyclo-olefin polymer (Zeonex 480R) microstructured polymer fibers infiltrated with nematic liquid crystals (2CHBT/8CHBT and PCB) are pre
Autor:
Tomasz R. Wolinski, Andrzej W. Domanski, Yuliya Semenova, Ginu Rajan, Gerald Farrell, Manjusha Ramakrishnan
Publikováno v:
Articles
In this article, we propose a miniaturized flexible interrogator for polarimetric and fiber Bragg grating (FBG) sensors based hybrid sensing scheme embedded in composite materials. The flexible interrogation module comprises of an arrayed waveguide (
Autor:
Katarzyna A. Rutkowska, Kamil Orzechowski, Marek Wojciech Sierakowski, Slawomir Ertman, Tomasz R. Wolinski, Andrzej W. Domanski, Roman Dabrowski, M. Tefelska, Karolina Milenko, Edward Nowinowski-Kruszelnicki
Publikováno v:
Applied Physics A. 115:569-574
In this paper propagation effects induced by thermal tuning of photonic band gaps (PBGs) in a polymer photonic crystal fiber (Pol-PCF) infiltrated with a specially designed liquid crystal (LC) are observed. When temperature increases PBGs in the tran
Autor:
Katarzyna A. Rutkowska, Roman Dąbrowski, Daniel Budaszewski, Andrzej W. Domanski, Edward Nowinowski-Kruszelnicki, Agata Siarkowska, M. Tefelska, Pawel Mergo, Slawomir Ertman, Karolina Milenko, Tomasz R. Wolinski, Marek Wojciech Sierakowski, Kamil Orzechowski
Publikováno v:
ResearcherID
Photonic Liquid Crystal Fibers with Polymers T.R. Woli«ski, M. Tefelska, K. Mile«ko, A. Siarkowskaa,∗, D. Budaszewski, A.W. Doma«ski, S. Ertman, K. Orzechowski, K. Rutkowska, M. Sierakowski, E. Nowinowski-Kruszelnicki, R. Dibrowski and P. Mergo
Autor:
Lukasz Michalik, Andrzej W. Domanski
Publikováno v:
Journal of Modern Optics. 60:681-686
In this paper we discuss the reconstruction process of one-photon mixed states of partially polarised light. To solve this issue, we obtain the Stokes parameters by means of the degree of polarisation. The density operator describing the examined sta
Autor:
Andrzej W. Domanski, Lukasz Michalik
Publikováno v:
Open Physics, Vol 11, Iss 4, Pp 512-517 (2013)
In this paper the authors discuss an alternative way for reconstructing one-photon mixed states of a partially polarized optical field. The task is to represent the probability density distribution describing these kind of states with the Stokes para
Publikováno v:
Optik & Photonik. 7:24-27
Photonics is one of the most promising and fastest developing innovative technologies and a key-enabling technology of Europe. Poland has a long tradition in optics and photonics research, especially in laser-based and optical fiber technologies. Thi
Autor:
Lukasz Michalik, Andrzej W. Domanski
Publikováno v:
Journal of Modern Optics. 59:1700-1704
In this paper the authors present the idea for reconstructing one-photon states. Reconstructing a quantum state means measuring the probability distribution P that allows one to write the density operator for the analysed state. The most commonly kno