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Jesper Borggren
Jesper Borggren
PhD Student Div. Combustion Physics, Lund University
Dirección de correo verificada de forbrf.lth.se
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Diode laser-based thermometry using two-line atomic fluorescence of indium and gallium
J Borggren, W Weng, A Hosseinnia, PE Bengtsson, M Aldén, Z Li
Applied Physics B 123, 1-10, 2017
432017
A novel multi-jet burner for hot flue gases of wide range of temperatures and compositions for optical diagnostics of solid fuels gasification/combustion
W Weng, J Borggren, B Li, M Aldén, Z Li
Review of Scientific Instruments 88 (4), 2017
392017
Simultaneous multispectral imaging of flame species using Frequency Recognition Algorithm for Multiple Exposures (FRAME)
Z Li, J Borggren, E Berrocal, A Ehn, M Aldén, M Richter, E Kristensson
Combustion and Flame 192, 160-169, 2018
222018
Temperature imaging in low-pressure flames using diode laser two-line atomic fluorescence employing a novel indium seeding technique
J Borggren, IS Burns, AL Sahlberg, M Aldén, Z Li
Applied Physics B 122, 1-8, 2016
222016
Vapor phase tri-methyl-indium seeding system suitable for high temperature spectroscopy and thermometry
R Whiddon, B Zhou, J Borggren, M Aldén, ZS Li
Review of Scientific Instruments 86 (9), 2015
212015
Single-shot photofragment imaging by structured illumination
K Larsson, M Jonsson, J Borggren, E Kristensson, A Ehn, M Aldén, ...
Optics Letters 40 (21), 5019-5022, 2015
112015
Lidar thermometry using two-line atomic fluorescence
E Malmqvist, J Borggren, M Aldén, J Bood
Applied optics 58 (4), 1128-1133, 2019
102019
Spatially resolved temperature measurements above a burning wood pellet using diode laser-based two-line atomic fluorescence
J Borggren, W Weng, M Aldén, Z Li
Applied Spectroscopy 72 (6), 964-970, 2018
102018
Time-resolved spectroscopic study of photofragment fluorescence in methane/air mixtures and its diagnostic implications
M Jonsson, J Borggren, M Aldén, J Bood
Applied Physics B 120, 587-599, 2015
72015
Analysis of EGR/air mixing by 1-D simulation, 3-D simulation and experiments
S Reifarth, E Kristensson, J Borggren, A Sakowitz, HE Angstrom
SAE Technical Paper, 2014
72014
Investigation of photochemical effects in flame diagnostics with picosecond photofragmentation laser-induced fluorescence
M Jonsson, K Larsson, J Borggren, M Aldén, J Bood
Combustion and Flame 171, 59-68, 2016
32016
Two-Line Atomic Fluorescence for Thermometry in Reactive Flows
J Borggren
Lund University, 2018
22018
Combinatorial light path spectrometer for turbid liquids
J Borggren
Lund Reports in Atomic Physics, 2011
12011
A compact Scheimpflug lidar imaging instrument for industrial diagnostics of flames
A Dominguez, J Borggren, C Xu, P Otxoterena, M Försth, T Leffler, J Bood
Measurement science and technology 34 (7), 075901, 2023
2023
Ali Rabbani
Z Li, J Borggren
2015
Temperature imaging in low-pressure flames using diode lasers
J Borggren, I Burns, AL Sahlberg, Z Li, M Aldén
Laser Applications to Chemical, Security and Environmental Analysis, LM2D. 6, 2014
2014
Investigation of ps-PFLIF for detection of hydrogen peroxides in laminar flames
M Jonsson, K Larsson, J Borggren, M Aldén, J Bood
Laser Applications to Chemical, Security and Environmental Analysis, LM2D. 3, 2014
2014
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Artículos 1–17