ICPT Conference

The conference starts with training workshop on Wednesday, 25th July, 2018 targeted at new workers or students interested in the field of phosphor thermometry.

On Thursday 26th July and Friday, 27th July, 2018 respectively, keynote lectures, and oral and ⁄ or poster presentation sessions of contributed abstracts will be take place with breaks held in between for networking and morning refreshments, lunch and afternoon refreshments.

The tentative technical program can be found below and a final version, which you will also be able to access on this page, will be uploaded just before the conference start date.

A text version of this tentative programme and the abstract lists with authors is available to download.

SESSION

TITLE

Abstract ID

Keynote lecture

A History of Phosphor Thermometry

S. W. Allison

1791

Phosphor physics, synthesis, characterisation and calibration

Intentional designing of sensitive luminescent thermometers through crystal field strength engineering

K. Elzbieciak and L. Marciniak

1750

Investigating the Temperature Sensitive Emission Properties of Eu:BAM : Potential for New Eu2+ High-Temperature Phosphors

Dustin Witkowski and David A. Rothamer

1862

Aerogel and Polymeric Phosphor Composites for Remote Thermometry-Cryogenic to Elevated Temperatures

F. Sabri and S. Allison

1799

Manganese-based phosphors for bandshape and lifetime luminescent thermometers

L. Marciniak and K. Trejgis

1755

Effect of Oxygen on Phosphorescence for Different Lanthanide Ions Ln³⁺ (Ln=Eu, Dy, Sm, Er) Doped Yttria-stabilized Zirconia

Tao Cai, Yongzeng Li, Lixia Yang, Di Peng, Xiaofeng Zhao, Yingzheng Liu

1777

Effect of the particle size on the temperature-dependent emission characteristics of YAG:Dy³⁺ and YAG:Dy³⁺,Er³⁺ phosphors

E. Hertle, L. Chepyga, M. Batentschuk, S. Will and L. Zigan

1762

V³⁺ , V⁴⁺ and V⁵⁺ as a temperature sensors in luminescent nanothermometers

K.Kniec, and L. Marciniak

1751

Gd_0.8Lu_0.2AlO₃:Dy³⁺ and (Gd_0.8Lu_0.2)₃Al₅O₁₂:Dy³⁺ as high-temperature thermographic phosphors

L. M. Chepyga, E. Hertle, L. Zigan, Andres Osvet, Christoph J. Brabec, Miroslaw Batentschuk

1864

Highly sensitive luminescence thermometry based on the combined lanthanide and transition metal ion emissions

M.D. Dramićanin, M. Sekulić, V. Đorđević, and M. Medić

1783

Fluid temperature measurements

Numerical Analysis on the application of SLIPI to gas-phase phosphor thermometry

L. Fan and S. Hochgreb

1760

Stagnation point heat flux measurements of laminar methane/air flames impinging on cylindrical surface with thermographic phosphors

Peter Oketch, Ulf Bergmann and Burak Atakan

1761

Characterising dispersed phosphor particles for fluid thermometry

C. Abram, B. Fond, M. Pougin and F. Beyrau

1798

Phosphor thermometry for the validation of computational fluid dynamics simulations of heat transfer in compressible real-gas flows

B. Fond, C-N. Xiao, C. Abram, C. T’Joen, B. Van Wachem, F. Beyrau

1870

Multiple Scattering Reduction in Instantaneous Gas Phase Phosphor thermometry: Applications with Dispersed Seeding

M. Stephan, F. Zentgraf, E. Berrocal, B. Albert, B. Böhm and A. Dreizler

1865

Exploiting optical signals from single-phosphor particles for simultaneous point measurements of flow temperature and velocity

A.O. Ojo, B. Fond, C. Abram, B. G. M. Van Wachem, A. L. Heyes, and F. Beyrau

1867

A Path to High-Precision Aerosol Phosphor Thermometry in Adjustable Temperature Ranges from 300 K to > 1000 K

Dustin Witkowski, David A. Rothamer

1869

Instrumentation, measurement strategy, and traceable standards

Phosphor thermometry in cryogenic applications

Dong Kim and Kyung Chun Kim

1772

Development of A Dual-Component Phosphor System for Simultaneous Pressure and Temperature Measurements

Yongzeng Li, Tao Cai, Lixia Yang, Di Peng, Xiaofeng Zhao, Yingzheng Liu

1778

Imaging phosphor thermometry from T = 20 °C to 450 °C using the time-domain intensity ratio technique

G. Sutton, A. Greenen, B. Roebuck, G. Machin

1868

A time-gated approach for improved ratio-based phosphor thermometry of fast heat transfer phenomena

A. Mendieta, B. Fond, P. Dragomirov, F. Beyrau

1871

Configurations for Temperature Sensing of Thermal Barrier Coatings

Q. Fouliard, S. Jahan, L. Rossmann, P. Warren, R. Ghosh, and S. Raghavan

1872

Effect of Flame Luminosity on Phosphor Thermometry Measurements Using the Decay Time Method

C. Binder, F Abou Nada and Mattias Richter

1873

Temperature profiling of cooled radial turbine wheel

C. Pilgrim, Y. Zhang, C. Copeland, A. Redwood, S. Karagiannopoulos, D. Castillo, S. Araguás Rodríguez, and J. Feist

1874

Triboluminescence and industrial applications

Use of phosphors to detect debris impacts and proton irradiation in space

W.A. Hollerman, R.S. Fontenot, and J. Miller

1770

On the use of phosphor thermometry for temperature monitoring in manufacturing processes

A.O. Ojo, F. McCallum, A. Andreu, and A. L. Heyes

1866

POSTER PRESENTATIONS

SESSION

TITLE

Abstract ID

POSTER

Luminescence thermometry with Eu³⁺ doped TiO₂, ZrO₂ and Nb₂O₅ prepared by plasma electrolytic oxidation

A. Ćirić, M. Sekulić, S. Stojadinović, M. D. Dramićanin, and V. Đorđević

1782

Effects of Fluid and Seeding Properties relevant for Phosphor Thermometry in Liquid Flows

J. Bollmann, E. Hertle, R. Pröbstle, S. Will, L. Zigan

1880

Luminescent Thermal Memory Paints

D. Castillo, S. Araguas, C. Pilgrim, S. Karagiannopoulos, A. Leibinger, J. Feist, S. Skinner, C. Cavallo, M. Genschmar, D. Peral

1881