Effect of doping by transitional elements on properties of chalcogenide glasses

Stronski, A.; Paiuk, O.; Gudymenko, A. Yo.; Kladko, V. P.; Oleksenko, P. F.; Vuichyk, M.; Vlček, M.; Lishchynskyy, I.; Lähderanta, E.; Lashkul, A.; Gubanova, A.; Kryskov, Ts. A.

doi:10.1016/j.ceramint.2015.02.077

Cited by 30 publications

(11 citation statements)

References 5 publications

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“…The interval of temperature change was chosen in such a way that the maximal value of temperature exceeded the temperature of transition into the paramagnetic state. Such dependencies in the following are denoted as ZFC [ 15 ]. Further, a sample was cooled in the magnetic field and M = M ( T ) was obtained, such regime was denoted as FC [ 15 ].…”

Section: Methodsmentioning

confidence: 99%

“…Such dependencies in the following are denoted as ZFC [ 15 ]. Further, a sample was cooled in the magnetic field and M = M ( T ) was obtained, such regime was denoted as FC [ 15 ].…”

Section: Methodsmentioning

confidence: 99%

“…The properties of ChGs can be changed by doping with transitional metals or rare-earth elements resulting in change of thermal, optical, luminescent, and magnetic properties [ 14 , 15 ]. Also the properties of ChGs can be changed by external light-, electron-, or ion-beam source resulting in change of refractive index, optical transmittance, volume (thickness), and viscosity [ 6 , 16 , 17 ].…”

Section: Introductionmentioning

confidence: 99%

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Direct Magnetic Relief Recording Using As40S60: Mn–Se Nanocomposite Multilayer Structures

et al. 2017

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Processes of holographic recording of surface relief structures using As2S3:Mn–Se multilayer nanostructures as registering media were studied in this paper. Optical properties of As2S3:Mn, Se layers, and As2S3:Mn–Se multilayer nanostructures were investigated. Values of optical bandgaps were obtained from Tauc dependencies. Surface relief diffraction gratings were recorded. Direct one-stage formation of surface relief using multilayer nanostructures is considered. For the first time, possibility of direct formation of magnetic relief simultaneous with surface relief formation under optical recording using As2S3:Mn–Se multilayer nanostructures is shown.

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Section: Methodsmentioning

confidence: 99%

“…Such dependencies in the following are denoted as ZFC [ 15 ]. Further, a sample was cooled in the magnetic field and M = M ( T ) was obtained, such regime was denoted as FC [ 15 ].…”

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Direct Magnetic Relief Recording Using As40S60: Mn–Se Nanocomposite Multilayer Structures

et al. 2017

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“…[ 195,196 ] Moreover materials with improved doping properties can help to implement more effi cient fi ber lasers, especially for wavelength longer than 3 µm. [ 197,198 ] Particularly interesting is the option to use semiconductor junctions for direct in-fi ber light generation via direct carrier injection, making external light sources obsolete and thus improving the performance of current telecommunication networks.…”

Section: Light Generationmentioning

confidence: 99%

Hybrid Optical Fibers – An Innovative Platform for In‐Fiber Photonic Devices

Schmidt

Argyros

Sorin

2015

Advanced Optical Materials

164

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The field of hybrid optical fibers is one of the most active research areas in current fiber optics and has the vision of integrating sophisticated materials inside fibers, which are not traditionally used in fiber optics. Novel in‐fiber devices with unique properties have been developed, opening up new directions for fiber optics in fields of critical interest in modern research, such as biophotonics, environmental science, optoelectronics, metamaterials, remote sensing, medicine, or quantum optics. Here the recent progress in the field of hybrid optical fibers is reviewed from an application perspective, focusing on fiber‐integrated devices enabled by including novel materials inside polymer and glass fibers. The topics discussed range from nanowire‐based plasmonics and hyperlenses, to integrated semiconductor devices such as optoelectronic detectors, and intense light generation unlocked by highly nonlinear hybrid waveguides.

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“…Special interest for their applications is related with chalcogenide glasses doped with optically active rareearth and transition metal ions, because they alter electrical, thermophysical, mechanical, magnetic and optical properties of the host material due to structural and electronic changes of the glass network [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Structural properties of chalcogenide glasses As2Se3 doped with manganese

Paiuk¹

2016

Semicond. Phys. Quantum Electron. Optoelectron.

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Abstract. The paper presents the results of studying structural properties inherent to chalcogenide glasses doped with manganese. Investigations of the structure were carried out using Raman spectroscopy and X-ray diffraction. The function of radial distribution of atomic density and Raman spectra have been obtained and analyzed.Keywords: chalcogenide glass, function of radial distribution of atomic density, shortrange order.

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Effect of doping by transitional elements on properties of chalcogenide glasses

Cited by 30 publications

References 5 publications

Direct Magnetic Relief Recording Using As40S60: Mn–Se Nanocomposite Multilayer Structures

Direct Magnetic Relief Recording Using As40S60: Mn–Se Nanocomposite Multilayer Structures

Hybrid Optical Fibers – An Innovative Platform for In‐Fiber Photonic Devices

Structural properties of chalcogenide glasses As2Se3 doped with manganese

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