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Literature DB >> 23258056

Blue emissions in Dy3+ doped Y4Al2O9 crystals for temperature sensing.

Zuzanna Boruc¹, Marcin Kaczkan, Bartosz Fetlinski, Sebastian Turczynski, Michal Malinowski.

Abstract

Temperature dependent emission spectra and decay times of trivalent dysprosium (Dy3) activated Y4Al2O9 (YAM) crystals have been studied for the first time (to our knowledge). The ratio of emission lines intensity can be used in temperature measurements, as it is not dependent on the variability of absolute intensity. The Boltzmann model was applied for modeling the temperature variation of the 4I15/2 and 4F9/2 states emissions relative intensities 455 and 481 nm, respectively. The calculated approximation gives highest sensor sensitivity of about 3×10(-3)°C-1 for the 600°C-800°C range, which allows for an expectation of usefulness of Dy3+:YAM in high-temperature luminescence thermometry. Also, the measured decay times are suitable for temperature sensing.

Entities: Chemical Gene

Year: 2012 PMID： 23258056 DOI： 10.1364/OL.37.005214

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

4 in total

1. A Luminescent Thermometer Exhibiting Slow Relaxation of the Magnetization: Toward Self-Monitored Building Blocks for Next-Generation Optomagnetic Devices.

Authors: Dylan Errulat; Riccardo Marin; Diogo A Gálico; Katie L M Harriman; Amelie Pialat; Bulat Gabidullin; Fernando Iikawa; Odilon D D Couto; Jani O Moilanen; Eva Hemmer; Fernando A Sigoli; Muralee Murugesu
Journal: ACS Cent Sci Date: 2019-05-22 Impact factor: 14.553

Blue emissions in Dy3+ doped Y4Al2O9 crystals for temperature sensing.

1. A Luminescent Thermometer Exhibiting Slow Relaxation of the Magnetization: Toward Self-Monitored Building Blocks for Next-Generation Optomagnetic Devices.

2. Novel optical temperature sensor based on emission in Pr³⁺ doped ferroelectric Ba_0.7Sr_0.3TiO₃.

3. Engineering efficient upconverting nanothermometers using Eu³⁺ ions.

4. A novel optical thermometry based on the energy transfer from charge transfer band to Eu³⁺-Dy³⁺ ions.

Blue emissions in Dy3+ doped Y4Al2O9 crystals for temperature sensing.

1. A Luminescent Thermometer Exhibiting Slow Relaxation of the Magnetization: Toward Self-Monitored Building Blocks for Next-Generation Optomagnetic Devices.

2. Novel optical temperature sensor based on emission in Pr3+ doped ferroelectric Ba0.7Sr0.3TiO3.

3. Engineering efficient upconverting nanothermometers using Eu3+ ions.

4. A novel optical thermometry based on the energy transfer from charge transfer band to Eu3+-Dy3+ ions.

2. Novel optical temperature sensor based on emission in Pr³⁺ doped ferroelectric Ba_0.7Sr_0.3TiO₃.

3. Engineering efficient upconverting nanothermometers using Eu³⁺ ions.

4. A novel optical thermometry based on the energy transfer from charge transfer band to Eu³⁺-Dy³⁺ ions.